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upon-a-starry-night · 7 months

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Self Care Natasha One-Shot

Request: " Nat is feeling achy after a mission and uses some fancy Shield tech to clone herself and give herself a back massage. It would get smutty from there"

Natasha Masterlist Main Masterlist

Paring: Natasha Romanoff x Herself

Words: 2k

Request? Yes/ No

Warnings: Smut, selfcest I guess?

Summary: Exhausted after a mission, Nat does what she has to do to release some stress

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To say Nat was exhausted would be an understatement. The mission wasn’t that much harder than usual but it took more days than she’d been expecting it to and by the time she was done and on the way home her body was sore in more ways than one.

The uncomfortable quinjet seats weren’t helping either. She was going to yell at Tony as soon as the tension in her back eased up. Stretching her arms above her head, she groaned at the knots she could feel digging into her shoulders.

At this point, a warm shower wouldn’t even be enough. There had to be something she could do to ease the aching in her spine or the other Avengers were going to be dealing with a very frustrated Nat for the rest of the week.

As soon as the quinjet landed Nat was making her way to her room, eager to find a solution and avoid any trainees who wanted to talk to her. S.H.I.E.L.D. Needed to evaluate their training if newer recruits kept leaving training to come fangirl of her and her other Avengers.

The thought stops her in her tracks. She remembers hearing something about a new training assist gadget Tony helped invent to help the recruit train. Something about cloning them so that they could fight themselves and see where they went wrong and how to improve. She’d never really paid any attention to it when it was brought up but now it might be of use to her.

Changing her course, Nat heads straight for the tech room. The doors slide open easily for her considering her full access to every single room. She sifts through the piles of papers filled with various weapon ideas until she finds the one she’s looking for.

The T.T.A.C. or the Tactical Training Assist Cloner. She rolls her eyes. Obviously, Shield named this weapon, Tony would have come up with something less practical.

She finds the weapon code and types it into the keypad on the back wall, watching as the wall spins past a few other weapons before landing on the T.T.A.C.

It’s smaller than she imagined. There’s a small handheld gadget with a needle on the end and a small round mechanical disk with a button next to it. She grabs both items and the paper with the weapon info and takes them both back to her room.

She doesn’t bother telling anyone or leaving a note, she knows the cameras will see that she took it and she doesn’t plan on using it for long. If anyone had a problem they could take it up with her.

Once inside of her room, she reads the instructions carefully before following them, groaning as she places the metal disk on the floor. She hoped this worked, she needed some instant relief.

She places the disk on the floor and presses the button, stepping back as the disk opens up and transforms into a small raised platform, big enough for one person to stand on.

Next, she pricks her finger with the needle thing and lets the blood drop onto the raised platform. Immediately it begins to glow a light blue and various mechanical sounds are filling up her room as the platform analyzes her DNA.

She doesn’t bother to understand how it works, if she did she’d probably get a headache but she can’t hide her surprise when a minute later an exact clone of her takes shape on the platform. It’s in a standard Shield training uniform and she realizes that must have been programmed in.

The clone just stands there staring blankly, according to the instructions it would remain docile until given instructions. Nat, however, would not be using it for training. It was time to test how well this thing listened and how much of a clone it really was.

“Clone, register command”

The clone locks eyes with Nat and stands a little straighter, waiting for a command. She resists the urge to shiver, it’s a little eerie but she wasn’t about to complain if it was going to do her a favor.

“I need a massage so that I can be ready to get back into the field as soon as possible, can you do that?” She doesn’t know why she feels the need to justify her actions. Maybe it was something about talking to herself.

The clone gives a small nod and she realizes they must not have the ability to speak yet. She supposed they don’t need to speak when they’re only built for physical training but it’s something for them to look into later.

“Do you know what to do?” The clone gives another short nod and Nat removes her shirt so that she’s just in her sports bra. If this clone was really her, hopefully, it would know all the spots she needed to ease the most tension.

She lies down on her bed on her stomach, moving a pillow under her chin so she’s more comfortable. Her gaze drifts behind her when she hears shuffling and she keeps her eyes glued to her clone as it climbs onto the bed and settles onto her thighs. The pressure is light and for a second she’s worried this will be too soft of a massage but she realizes if they can throw punches in training they can probably give decent massages.

Her head settles back onto the pillow and she closes her eyes the second the hands begin digging into her back. The pressure is incredible and the clone is hitting all the exact spots she was aching in.

The clone presses its hands deeper into her shoulders and she releases a sigh as the pressure gets kneaded out. If she had known it was going to feel this good she would have done this sooner.

She resists the urge to moan as the clone hits a particularly deep knot in her back. Perhaps she could be in for more than just a back massage. The rest of her body could use the release.

Something about the feeling of her own hands digging into her feels uniquely intimate and the deeper they dig into her the more she feels herself getting turned on.

She’d been so busy on the mission and spending the weeks before that preparing that she hadn’t had the time to relieve some of her stress. Only now was she realizing just how wound up the coil in her body felt

Without her even asking, the clone begins massaging its way down the rest of her body once her back is done. The rough fingers digging into her thighs do nothing to stop the growing heat between her legs.

She’d never thought about this situation before but now that she was here… who would know her body better than herself? All the best spots, all the things that made her come undone.

Feeling herself clench at the idea she decides there’s no harm in it if it helps her relieve some stress. Plus she would be helping the system learn how to read body language better.

Turning herself over, she watches as the clone quickly adapts, massaging up and down her calves and feet. She almost doesn’t want to tell it to stop but the idea of a better release spurs her on.

“Register command” The clone stops its actions and finds her eyes once more. There’s a heady look in its gaze and she wonders if it’s copying her facial expression or just reacting to the situation.

Slowly, Nat slides her hand down her chest, Stopping at her nipples to roll them between her fingers. She throws her head back at the sensation but her eyes stay on the clone whose gaze remains locked on her. The sight of herself just watching turns her on even more and has her hand traveling further down her body.

She slips her pants off her legs as the clone hovers over her.

Sliding her hand between her thighs she lets her fingers drift between her folds, working their way up and down through the wetness that had already begun to form. She noticed the way the clone's eyes drifted down to what was happening between her thighs, despite the fact that the clone was supposed to stay stoic and stare at her until a command was received. Interesting.

Eager to test her own skills, Nat stops her ministrations and gives control over to the clone. She doesn’t bother stating a command, wanting to see if it will act on its own.

The clone reacts immediately, placing its hand over Nat’s unmoving fingers. Instead of moving Nat’s hand out of the way, however, they begin moving Nat’s hand for her, repeating her earlier actions of dragging her fingers through her folds.

They continue at an agonizingly slow pace, trying to draw out and prolong her release. It’s something Nat had done to herself a few nights when she had the time. Trying to savor the feeling of pleasure for as long as she could.

Eventually, the clone drags Nat’s hand to her clit and languidly circles the bud. Shutting her eyes, Nat moans at the feeling, letting the clone set an even pace as it uses her own hand to pleasure her.

She can already feel the pressure building in her core, however, and she’s desperate for more than what the clone is giving her. She knows her body best so why wasn’t the clone doing more? It’s then she realizes that the clone wasn’t touching her on its own because it hadn’t been permitted to.

“Touch me” Green eyes snap to meet hers and the clone doesn’t bother nodding to confirm it received the command. Instead, it pushes away her own hands from her heat and replaces them with its own. The hands feel the same, if only a little colder, and the clone wastes no time in touching Nat.

One hand crawls up Nat’s abdomen until she reaches her nipple, rolling it between their fingers. The other decides she’s wet enough for more and slides a finger into her heat, slowly pumping it in and out and watching Nat’s face for a reaction.

Nat throws her head back, moaning in pleasure. This is what she was looking for. This was exactly what she would be doing by herself but now she had the chance to relax and let herself be taken care of.

The clone starts pumping faster, adding another finger when she was ready and moving the hand from Nat’s breast down to her clit, rubbing swift circles as Nat continues to moan.

Nat can already feel the coil of her release begin to wind up. Her clone reaching her g spot with every thrust of their fingers. She brings her own hands up to her breast, massaging them as she watches her clone lean down towards her core.

Before she can process it, she’s moaning at the feeling of their tongue lapping at her folds. The long wet strokes mixed with the rapid pace of their fingers have her on the edge of her orgasm already. And when the clone moves to suck on her clit she covers her face as her body spasms in pleasure. The clone slows their movements but doesn’t stop, letting her ride out her orgasm until she finally bats their hand away.

She lays on her bed with her arm over her eyes as she processes what just happened. She was right in her thought that her clone would know the ins and outs of all of her body's pleasure. When she finally removes her arm she sees the clone staring at her with the same heady look as before. These things must be programmed with infinite stamina.

The thought leaves a smirk on her face. It wouldn't hurt to borrow this thing for a couple more hours

A/n: I hope I made this the way you imagined- it's my first time writing smut! ~ Starry

#marvel #fanfiction #fanfic #marvel fanfic #marvel fanfiction #fluff #women of marvel #fluff fic #natasha romanoff #natasha fanfic #natasha smut #natasha romanoff smut #black widow smut #natasha romanoff imagine #natasha romanoff oneshot #smut #selfcest

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inchidentally · 7 months

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My mate works in sound production so I asked him since at first I thought Lando farted when Oscar mentioned his girlfriend. He said it's unlikely that mic would've picked up a fart unless he pushed it against his ass since you've got to be right on them to pick up. But he pointed out they switch from the handhelds to the room mic when it happens because Oscar's audio goes tinny with reverb then back to normal. So the engineers definitely wanted to catch Lando moaning or whatever for context.

ANON I AM SOBBING

"unless he pushed it up against his ass" OH THAT IMAGE

I am literally picturing you having this conversation w a professional audio person and him critically analyzing it w his existing fart to mic knowledge and pointing to an equalizer and a graph and prior studies

okay so I isolated out that moment put it on headphones and holy shit pat your mate on the back for picking up on the change in audio??? I would never have spotted that if I didn't pay attention

and yea that's definitely a mouth noise bc I had to show this to my cousin and we were both like if you farted against a metal chair without even lifting a cheek then it would definitely rip instead of whisper like that - apparently we're the same maturity as professional engineers ig - we also agree that Oscar would've laughed way harder if it was actually a fart since 22yo guy etc

but I can't decide if it's funnier to imagine that Lando bitchily intentionally let out a fart specifically for when Oscar talks about his pescatarian gf or yes I suppose the more likely truth of him just making an 'awww' noise to throw Oscar off

learning all kinds of new things today bc I remember Lando being scolded as a rookie to hold those mics right up to his mouth and apparently those are preferred for blocking out ambient noise (makes sense in places where there's car engines) but now we know their exact use and capability all bc of Lando being weird slhfljahgfljhf

#inchreplies #this was a wild ride anon tysm !!#landoscar #f1 testing interview

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haliaiii · 7 months

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These are some in-universe weapon/tech concepts for Retrograde, I actually had a lot of fun drawing these! Most of them are used for as references for when drawing the actual comic. The in universe lore is that the weapons that Sam and Val use are actually weapons commonly used by soldiers in the military but were modified by Eli (their friend who runs a mechanic shop, she also fixes Val's bike and any random things that comes by). In Retrograde, many weapons are made using lasers and laser blades as they're more powerful than your average steel/metal. However, they take up a ton of energy and have really low battery life. They are great for cutting down robots and droids though.

Last image is just what their phones look like. In this universe, after the giant cataclysm that destroyed the previous era, the world kinda overwent a giant technological set back. Basically most things never really made it out of the analog systems and so a lot of the tech is similar to most tech from the 90s and early 00s. Sam and Val's phones don't have a touch screen, they use a joycon and buttons to navigate around the screen and a pull out keyboard to type messages (like an handheld game console, the inspo was mostly from flip phones and the DS lol). The computer on top is probably the closest you'll get to a laptop, it's pretty clunky and is mainly used by field researchers for analyzing data. Sam and Val do end up doing a bounty for a group of researchers so I was trying to figure out what they'd use for data and stuff.

#I think im gonna make a long masterpost with links to all the lore i talk about for my own convenience 😭#I keep losing where I talk abt certain things #this post is more abt world building if anything #it's also lots of fun for me cause I finally know how to draw these kinda objects that don't exist irl #btw Sam and Val's phones are color coordinated with their designs ofc #how were they able to get customized phones that matched their appearance and aesthetic while on a tight budget?#idk man they probably had Eli do it for them #retrograde #haliai art #oc lore #concept art #my art #sketch #worldbuilding #weapon design

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lemonylepid · 1 year

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Kyto needed to head home, there was a lot on his mind. The problem is that in Le-Metru, to get around you need to use the Chutes. The problem with Chutes is that Datuu and Juup take the same Chute home, which means they'll be at the station, which means they'll probably harass him like usual. 'Hopefully not today' he thought, folding is arms and looking to the ground in an effort to conceal his deep green Huna. 'Maybe they went home earlier..'

No, he wouldn't be that lucky. He could hear the Matoran chuckling to themselves a few bio away. Amidst any crowd you could always pick out Juup's snide voice, in contrast with Datuu's screeching laughter. 'Maybe they won't notice me?'

The crowd waiting for the Chute to clear was looked over by two towering Vahki, processing and analyzing the crowd. Le-Matoran were known to be a little rowdy, but order had to be maintained.

Kyto held tight to his backpack's straps, grabbing something giving him a light comfort as anxiety tried to take hold. At his workplace, he's made a perfect route to avoid the two at all costs, but going home was always a problem. He could stay at a local energy vendor for a short while, but he did not want to waste away his day waiting for bullies to leave. Besides, what would his pet kofu-bomu think?

The sound of the Chute clearing was a startling chime, and Kyto shot a glance at the entrance, strangling his straps hoping the two Matoran would leave. Unfortunately, the worst had happened. Just about everyone in the crowd had filtered through but the two. The chime sounded right before they stepped inside.

"Karz it, Datuu. Every time we ever-miss this thing. It's always your fault, too." Juup said with a sneer.

"Look, you're the one say-telling jokes, it's ever-distracting! I laugh too hard! Clearly your fault." Datuu put an arm around Juup, chuckling just a bit more. "At least it won't be squeeze-crowded next time."

Kyto's heartlight was whirring hard, he turned to hide in an alley but accidentally bumped into a discard receptacle, making a loud clang as metal hit metal. Kyto froze in place, slowly looking back to the two. They were right there. Next to him. Looming. "Trying to discard-trash yourself, pump guy?" Datuu's voice rang in Kyto's audio receptors, and he slowly backed away.

"N-no, just on my way-back home.." they didn't even know Kyto's name.

"I thought you lived in our house-district? Didjya wrong-turn?" Juup put a hand against the wall behind Kyto, very intentionally trying to scare him.

"I was j-just.."

"Yeah he's just twist-confused like always. Isn't that ever-right, pump guy?" Datuu's chuckle was shrill. "Probably a happy-good thing, too. Don't want him depressurizing our way-back home. Pksheww!" he mimicked a little explosion with his hands.

"Look, g-gentlmen, that was one time in a t-testing tunnel.. If we could all go home-"

"Give us your widgets, you still big-owe us for having to quick-clean up your mess." Just like Juup to get straight to the point. Kyto's fists clenched, his wages have been reduced already to surplus the two. He didn't owe them anything. Especially after the last three times this had happened.

"N-n-n-no.." Kyto's heartlight had never revved faster. It felt like it was going to pop out of his chest. He glanced over at the Vahki standing guard, wondering why they weren't helping him. They never help him.

Juup's head crooked a little, confused. "What did you just tell-say to me, pump guy?" Datuu looked at Juup and pulled out a cargo welder. A small handheld welder from Ta-Metru that could scar a matoran up good. "Maybe we should quick-weld your mouth shut, because I really didn't like listen-hearing that, pump guy."

The panic of the situation set in, and Kyto did what he could. His eyes darted to Datuu, studying his Mahiki. His clenched fist swung hard, contacting it with a crunch, and Datuu went down, welder flying out of his hand. "LEAVE ME ALONE!" Juup was shocked, and Kyto shoved him out of the way and he ran. He ran straight for the Chute entrance, which had given the all-clear moments ago. He could hear the Vahki chitter and mobilize, and Juup shouting. The Vahki didn't understand. Alarms sounded and another Vahki shot out from the nearby tower, debris falling into the area. It was tracked and targeted to Kyto, he had to leave now.

He stepped into the Chute, and zoomed off. The Vahki jumped into it as well, now hot on Kyto's tail. As he looked back, he could see a disk load and charge up in its pincers. It blasted several times over, explosions surely visible from the outside. Kyto dodged the best he could, and sped through the protodermis gel as fast as he could, carrying the current to speed himself up. His goal of getting home was getting closer, he could feel the exit pull.

He landed, and exited the Chute as fast as possible. He was home free, no bullies, no Vahki, just his house and his Rahi. He could see it, it was right there! And then an explosion set off behind him, the Vahki shot out of the peak of the Chute. It landed on him and knocked him flat to the ground. The Vahki fired a binding disk and it electrocuted Kyto right there in the middle of his neighborhood plaza. They didn't understand. Nobody would understand. The Vahki switched to a matoric recording, and spouted loudly:

"CRIMINAL APPREHENDED, FOR PEACE AND THE LAW."

#bullying cw #threatening cw #bionicle #vahki #ACAB #writing

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goldenphoenixa1-001aaa001 · 1 year

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LIST OF STAR WARS VOCABULARY

This is an ongoing archive of terms and expressions to use in your writing. Please let me know if you want something added

Common Materials

Duracrete – The most common alternative to concrete

Durasteel – The most common alternative to steel

Ferrocrete – A mix of concrete and iron, stronger and more widely-used than concrete

Flimsi/flimsiplast – A material used for several things including flattening into sheets to use like paper

Mandalorian iron – An extremely strong metal that can resist lightsaber blades and blaster bolts. Known by its Mando'a name, beskar

Permacrete – A very strong and heat-resistant version of concrete, used in landing pads and spaceports

Plastoid – Used for the armour of the GAR and Imperial troopers and Darth Vader’s suit

Plasteel/plastisteel – A plastic and steel alloy, used for some (not very effective) armour

Quadanium steel – A metallic substance, used to build the hulls of the first and second Death Stars. Often shortened to Quadanium

Transparisteel – The most common alternative to glass

Everyday Terms

Airspeeder – Repulsorlift vehicle used on highly urban planets like Coruscant

Caf – Coffee

Datapad – Like a tablet

Holonet – Internet

Landspeeder – Repulsorlift vehicle that hovers above the ground

Power cell/power pack – Battery

Refectory – The dining halls of communal spaces like the Jedi Temple

Refresher/‘fresher – Bathroom

Sonic shower – An alternative to a water-based shower which uses ultrasonic vibrations

Tapcaf/tapcafe – A cantina, bar or café

Turbolift – Elevator

Medical Terms

Bacta – A chemical substance that regenerates tissue very quickly

Bacta patch – A bandage containing bacta. The equivalent of a Band-Aid

Bacta spray – Bacta in a pressurized container

Bone-knitter/bone stabilizer – An electronic device to heal and set bone fractures

Coagulant – Used to clot blood to stop wounds from bleeding

Coagulin – A brand of coagulant

Hypospray/hypodermic injector/hypo – A device used to inject liquid into a being’s body

Irrigation bulb – A small container holding cleansing liquid, used on wounds

Kolto – The predecessor to bacta

Laser cauterizer – A device that burns shut wounds by emitting a low-frequency laser beam

Laser scalpel – A laser-based surgical scalpel

Medbay/sickbay – An area on a starship for treating sicknesses and injuries

Medcenter – A hospital, sometimes one located in space

Medical capsule – A specialized repulsorlift stretcher, such as the one used to transport Darth Vader off Mustafar

Medical droid/meddroid – Droids specialized in stabilizing and treating patients

Medisensor – A handheld scanner for determining the patient’s condition

Medkit – A package full of tools and equipment to treat injuries, often found on starships

Medlab – A medical laboratory

Medpac – A smaller version of a medkit, meant for first aid and able to be carried onto the battlefield

Quick-seal splint – A fast-setting splint used to immobilize broken limbs

Repulsorlift stretcher/hover-stretcher – A stretcher with a built-in repulsorlift

Sonic scalpel – A scalpel used to cut away dead flesh

Spray-bandage – A liquid bandage containing bacta, meant to seal small wounds

Stim-shot/stimshot – A stimulant administered with a pneumatic syringe

Substance analyzer – A device to scan and analyze substances to detect poisins, toxins or other inconsistencies

Synthflesh – Synthetic mouldable material that mimics skin. Sometimes considered identical to synthskin

Vibroscalpel – A scalpel that uses vibrogenerator technology

Technology

Communication and Data Storage

Comlink – A communications device worn on the wrist or carried in a pocket

Datacard – A device to store and transfer information, like a USB

Datacron – A small, polygonal data storage device, mainly used for encrypted data

Datapack – A group of datacards

Holobook – An electronic book, often stored on a datapad or its own device

Holocron – A datacron that can only be accessed by Force-users

Holofile – A data file with a holographic interface

Holopad – A handheld hologram projector

Holoprojector – A device to record, receive, send and/or project holograms

Holorecorder – A device to record holograms

Holotransmitter – Any device that transmits information using holograms

Transmitter – Refers to any device used to relay information

Starships

Aural sensor – A device found on all starships that gives an audio simulation of the pilot’s surroundings in space

B-wing – A Rebel Alliance fighter and bomber, later replaced by the B-wing Mark II

E-2T medical shuttle – A ship used by the Empire to transport injured troops

EF76 Nebulon-B escort frigate – A large capital ship often modified by the Rebllion for use as a hospital ship

Flight computer – A computer system that monitors all systems on a starfighter, such as the engine and power systems, and translates a pilot’s commands into actions

Full-spectrum transceiver – A sensor package equipped on most non-combat starships that is capable of detecting a very wide range of phenomena but tends to have a low sensitivity

Gravity well projector – A device used to pull ships out of hyperspace by creating a strong artificial gravity well (called an interdiction field)

Haven-class medical station – A space station used by the Republic to treat clone troopers

Hyperdrive – The propulsion system that allows equipped ships to travel in hyperspace

Hyperspace – A separate dimension that can only be reached by travelling at or above lightspeed

Inertial compensator – A device used in starships to counteract the affects of large accelerations on the passengers. Many pilots dialed back their compensators to 95-97 percent while engaging in high-g-force maneuvers in order to feel the ship’s performance

Ion engine – The most common type of sublight engine, also called an ion drive or thruster

MedStar-class frigate – A medical supply and transport ship that served during the Clone Wars and later under the Empire

Navicomp/navicomputer – The most common navigational device. Usually found in starships but can also be handheld

Pelta-class frigate – A ship used as both a cargo frigate and a medical transport, often escorting the lighter-armed MedStar-class frigate

Republic Troop Transport (RTT) – The ship commonly used to transport clones and Jedi during the Clone Wars

Sensor window – An opening in the nose of a starfighter through which the sensors “see”

S-foils – Moving wings on a starfighter. Not every fighter has them

Sprint-class rescue craft/med runner – Used to transport dead and wounded troops and respond to deep-space distress signals

Starship sensor array/sensor suite – The system of sensors on a starship that allow it to navigate, detect obstacles, chart interstellar bodies, and more

Sublight engine – An engine that allows ships to travel at speeds below lightspeed, also called a sublight drive or thruster

T-5 Deliverance – A variant of the Lambda-class T-5a shuttle used to deliver medical supplies to the battlefield

Targeting computer – A device used to help pilots target their weapons. Produces a digital view of the battlefield and provides crosshairs to let the pilot know when the target is vulnerable

Viewport – The windows on a ship or starfighter

X-wing – A starfighter used by the Rebel Alliance

Y-wing – A starfighter and bomber with two seats

Other Transportation

Gravsled – A hovering sled used to carry and transport things. Also called a hoversled or repulsor sled

Maglev train – A public transit vehicle on Coruscant

Repulsorlift – An anti-gravity device used in almost every type of vehicle. Often shortened to repulsor

Snowspeeder – A T-47 airspeeder modified by the Alliance for use on Hoth

Speeder bike – An open-air repulsor vehicle, like a motorcycle

Swoop bike – An overpowered speeder bike

Slang and Insults

Astral! – Awesome

Backwater – Adjective used to mean an inferior or out-of-the-way planet or place

Bantha fodder – Either states that something is a lie (used the same as bullshit) or a waste (e.g., I won’t let you become bantha fodder)

Blast! – An interjection

Civvies – Civilians or civilian clothing

Clanker – Battle droid

Darkspace – Yuuzhan Vong for hyperspace

Di'kut – Mandalorian, meaning “idiot”

Dirtball/dustball – A derogatory term for a planet, usually one with a dry or barren surface

Emperor’s Black Bones! – An exclamation

Fierfek – A Huttese expletive

Flyboy – Slang for a starfighter pilot

Force-forsaken – God-forsaken

For Force’s sake – For God’s sake

Gentlebeing – A version of “gentleman” used for all genders and species

Hell – Used the same as in real life

Imps/Impies – Slang for Imperials

Karabast – A Lasat expletive

Kark – Strong expletive

Klick – Kilometer

Kriff – Expletive (e.g., What a kriffing idiot.)

Nerfherder – An Alderaanian job used as an insult

Sitting mynocks – Sitting ducks

Sleemo, slimeball – A jerk

Spice – A type of narcotic

Thank the Maker! – An expression like “thank God!” used by non-organics like C-3PO

Thank the Stars! – Thank God

Thrown under the speeder – Thrown under the bus

Wild bantha chase – Wild goose chase

Youngling – Child of any species

Weapons

Bo-rifle – A weapon used exclusively by the Honor Guard of Lasan

DC-15A blaster rifle – The standard weapon given to clones in the Grand Army of the Republic

Electro-jabber – An older version of a stun baton

Electrostaff – A long staff with electromagnetic generators at each end, used by General Grievous’ droid bodyguards

Force pike – An electric shock weapon with a vibro-edged tip

Lightsaber pike – A saberstaff with short blades and a long hilt, carried by the Jedi Temple Guards

Saberstaff/double-bladed lightsaber – A lightsaber that emitted blades from both ends

Stun baton – A short metal baton that delivers a powerful electric shock

Vibroweapon – A bladed weapon with a vibrogenerator in the hilt to produce high-speed vibrations that allow the blade to cut much more effectively

Vibro-ax – An ax, which could vary greatly in size and shape and was often carried by Gamorrean guards

Vibroblade – A regular blade with a vibrogenerator, usually over a foot in length

Vibroknife – A small vibroblade capable of cutting very deep with little pressure

Vibrostaff – A long staff with a rounded hilt (3 ft) and one or two blades (2.5 ft). The double-bladed versions were carried by the Emperor’s Royal Guard

Vibrosword – A long, heavy version of a vibroblade, can come in a double-bladed version

* * *

Most of these terms are from my own lists, but some definitions are from Wookieepedia. User @pomrania also helped with this compilation.

#no reblog button was found #star wars #space glass

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kumamoto-division · 1 year

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The mind is the great slayer of the real -Helena Blavatsky

Introduction:

Natsume Kurome also know as wanderer in the rap battles is the third (and final member) of the team representative of kumamoto, strange magic

A very know artist he is also a fortune teller that use mainiy tarot cards and sometimes a cristal ball,he works in his own store called "the pandora box" where the people go when need a work of art or a tarot reading

Like Kunio,Natsume is know in kumamoto and nearby cities not only for his artistic talent or psychic power with the cards but also for his great beauty (being called the most beautiful person of kumamoto) and his flirtatious personality and aura of mistery

Natsume is in the DRB not only for his own fun,he is in the DRB because like his best friend and his husband he wants make a revolution...

Natsume makes honor to his reputation as "the most beautiful of kumamoto" is a very beautiful young man with a androgine aspect,he is taller than Aoba without heels but is shorter tan Kunio

He have the red hair long to the hips with bangs and two longer locks like a hime-cut,Natsume also haves glowing golden eyes with musical notes tattooed under his left eye

When he is working in his store Natsume wear assorted clothes that giving him a look eccentric but stylish,mainly luxurious kimonos or long dresses with legs openings

casually Natsume wear clothes femenine but fashionable a bit boho mostly a black turtleneck sweater and a leather jacket along black jeans with brown heeled boots and a black beret

As accessories Natsume always use a long necklace with a penthagram and his wedding ring on the ring finger

Aliases

The fortune artist

Wifey,My dear,beloved,my empress etc (by Kunio)

Natsume chan/Big sister (by Aoba)

Biographical info

Gender-male

Age-22

Ethnicity-half japanese/half european

Hair color-red

Eye color-gold

Eight-173/5'9

Weight-126lbs/53kg

Birthday-oct 30

Star sign-scorpio

Piercings-lobes,tongue

Markings-tattoo of a triqueta in the chest, tattoo of musical notes under a eye,scars in the neck

Family

Father

Mother

Husband

Voiced by-Aoi Shouta (rapping and singing)

Fun facts

MC name:wanderer

Occupation:artist/fortune-teller

Division:kumamoto

Team:strange magic

Position:3nd member

Favorite food:omurice,fudge

Least favorite food:tsukemono

Likes:the tarot,painting and drawing,the art,poetry,his grimoires,animated movies,his husband,musicals,fashion,vintage items,,red claves,travels, musicals,the occult,being called "warlock", his family and friends,the wicca, halloween,the botanic, pink wine

Dislikes:being called "satanic",depressed Aoba,the upper class of Aoyama, chuokhu,being insulted for his predictions,abandoned animals,Kunio sad

Hypnosis microphone

Natsume's microphone is a handheld mic that seems to be made of golden amber with a red clavel made of precious stone around it

His speakers takes the shape of three statues of tarot cards (the lovers,the high priestess and the death) with jewels floating around and three antique crystal balls over metallic supports ,inside the crystal balls there are circular speakers in the shape of red clavels

His rap ability is under my spell Natsume can shoot to the opponent jewels that shows they greatest desire and dream and the opponent see the illusion until they stamina runs out

Personality

"Mysterious" is a good word for him,Natsume have a mysterious and aloof presence to other people but his actions say otherwhise,he's a good conversionalist and a hard-works,and a passionate artist with a mysterious and eccentric aura on him and Natsume usually gives the impression of being a mysterious and calm person coming and going has he pleases

Maybe that's why people who kow him deeper are surprised at first when he reveals the other side of him,that of a nice person who is kind to everyone,a side that is usually shows to Aoba, Kunio and his father

Natsume also is more smart what he seems like and he is very good at analyzing people,an ability that he learned since he works as a fortune teller and his job as an artist

Also he is very protective with the people he loves,even with all the teases beetwen him and Aoba, Natsume is very protective with him and will be forever grateful with Kunio for saved him

His rap themes are about things like his travels,antique stories and legends and the magic,about his travels he raps about being a "wanderer in the world" and how him and his team are the "revolution" or "the new age",he raps too about his feelings and love for Kunio and Aoba

Like Miho Kobayashi of shinagawa when he raps Natsume calls himself a type of monarch (usually a "witch-queen" or "empress") that vigills his realm from shadows or his magic and natsume sometimes comparing himself with witches from legends (like medea, morgaine and often the blaire witch) and also make references to poisons

background:

*Coming soon*

Trivia:

He is descendant of le compte Saint Germain ,and Natsume is proud of being his descendant (his father once mentioned that with his interest in the literature,the alchemy and the music Natsume reminds him a little to the count)

Natsume in revenge againts Aoba for teasing him when he called him "big sister" he gave him gothic dresses and femenine clothes of the Aoba's gotic style as a joke,but he don't expect the fact that Aoba liked so much

His most famous perfomance along Kunio is called "the flower dance", a dance cosplay that make it viral on internet and social media (like PROPHILE)

He has visited several places before like london,new orleans,paris,greece etc but he decided to stay in Japan

He can speak japanese,french,chine,russian,italian and english

He often accompanny Kunio when he go to other cities to give his street shows

He have a friendship with Fleuret Oshiro of Taito,they often talk about they relationships with their respective boyfriend/husband,of their ancestors and their jobs

His mother was the one who introduced him in the tarot,the literature and the alchemy and his father introduced him in the art and the music

He is a wiccan,and feels offended of someone calling him "satanic" but he respects to people who fellows another faith and he feels grateful with people who do the same with his wicca religión (like Shisuta Heisha of ueno)

He can bake but is bad cooking

His a bit distant of his father since the death of his mother but they have a good relationship,Natsume visit him at his home in ueno every time he can and they often chat on the phone

#hypmic #hypnosis mic oc #hypmic oc #hypnosis mic #hypnosis microphone #kumamoto division #strange magic #natsume kurome #character bio

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surgicalrepublic12 · 16 days

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Medical tool for surgery

Specialized instruments known as medical tools for surgery are made to help surgeons carry out various procedures safely and precisely. This is a thorough examination of many essential surgical instruments and how they work.

1.Scalpels

Use: For making accurate incisions in the skin and other tissues.

Types: disposable and reusable, with different shapes and sizes of blades.

2.Scissors

Use: For slicing through materials such as tissues and sutures.

Categories:

Analyzing For slicing delicate tissues, use scissors.

To cut sutures, use suture scissors.

Metzenbaum scissors: for accurate cutting.

3.Forceps

Use: For grabbing, retaining, or adjusting tissues and items.

Categories:

Thumb forceps: For all-purpose manipulation.

Tissue forceps: Used to manipulate and grip tissues.

Hemostatic forceps: Used to stop bleeding by constricting blood vessels.

4. Needle Holders

Use: For safely retaining needles during suturing.

Types: They differ in size and appearance, and many have locking mechanisms for a secure hold.

5.Hemostats

Function: Clamping blood vessels or tissues to control bleeding.

Types: Available in straight or curved designs and various sizes.

6. Devices for Suction

Function: clearing the surgical site of blood, liquids, or debris.

Types: Contains both electric and handheld suction machines.

7.Electrocautery Instruments

Function: Use electrical currents to cut or coagulate tissue, reducing bleeding and infection risk.

Types: Includes monopolar and bipolar cautery devices.

8. Surgical Clamps

Function: Temporarily occlude blood vessels or tissues to control bleeding or facilitate surgical procedures.

Types: Includes vascular clamps and intestinal clamps.

9. Suturing Materials

Function: For closing incisions or wounds.

Types: Sutures: Threads made of various materials.

Staples: metal staples for quick wound closure.

10. Surgical Drills and Saws

Function: Usually used in orthopedic procedures, this tool is used to cut through bone or other hard tissues.

Included among the types are high-speed drills and oscillating saws.

Conclusion: Each of these tools plays a critical role in ensuring the success of surgical procedures, contributing to precision, safety, and patient care.

If you have any query about surgical products visit our website: https://surgicalrepublic.com/.

#surgical instruments/ surgery products/ surgical instruments suppliers/ surgical tools for sale

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seo1718 · 1 month

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The Twisting Apparatus: Unlocking the Potential of Torque Tester Instruments

In the world of engineering and manufacturing,How to choose the right torque tester instrument the accurate measurement of torque is a critical requirement. Torque tester instruments play a vital role in ensuring the reliability and performance of a wide range of products, from automotive components to industrial machinery. One particularly versatile tool in the torque tester arsenal is the twisting apparatus, a device that unlocks a deeper understanding of torsional forces and their impact on product design and performance.

The Fundamentals of Torque Measurement

Torque, defined as the rotational force applied to an object, is a crucial parameter in countless engineering applications. Proper torque measurement allows manufacturers to ensure that components are designed, assembled, and functioning within specified tolerances, helping to prevent failures and optimize product performance.

Torque tester instruments, such as digital torque wrenches and handheld torque testers, provide the means to accurately measure and record torque data. These devices utilize a variety of sensing technologies, from strain gauges to hall effect sensors, to capture real-time torque readings and deliver precise, reliable measurements.

The Role of the Twisting Apparatus

While standard torque tester instruments focus on measuring the overall torque applied to a component, the twisting apparatus takes this a step further. By introducing a controlled, measurable twisting force, the twisting apparatus allows engineers to delve deeper into the torsional behavior of materials and components.

The twisting apparatus typically consists of a fixture that securely holds the test specimen, coupled with a torque-measuring mechanism. As the fixture applies a controlled rotational force to the specimen, the torque tester measures and records the resulting torsional response. This data can provide valuable insights into a material's shear strength, elastic modulus, and other critical properties that govern its performance under torsional loads.

Unlocking Torsional Insights

By utilizing a twisting apparatus in conjunction with other torque tester instruments, engineers can unlock a wealth of information that informs product design and manufacturing processes. Some of the key applications and benefits of the twisting apparatus include:

Material Characterization: Analyzing the torsional properties of various materials, such as metals, plastics, and composites, helps engineers select the most appropriate materials for their applications.

Component Design Optimization: Understanding the torsional behavior of individual components, such as shafts, gears, and couplings, allows for more precise design and dimensioning to ensure optimal performance and durability.

Assembly Verification: Measuring the torque required to assemble and disassemble threaded fasteners, joints, and other mechanical connections helps validate the integrity of the assembly process.

Quality Control: Incorporating the twisting apparatus into routine quality assurance testing enables manufacturers to monitor the torsional consistency of their products, identifying and addressing any variations or defects.

Research and Development: The twisting apparatus serves as a valuable tool for researchers exploring new materials, designs, and manufacturing techniques, providing critical data to support innovation and technological advancement.

Unlocking the Potential of Torque Tester Instruments

The twisting apparatus, when combined with the capabilities of modern torque tester instruments,How to calibrate a torque tester instrument represents a powerful tool for engineers and manufacturers across a wide range of industries. By delving into the nuances of torsional forces, professionals can optimize product design, enhance quality control, and drive innovation – all while ensuring the safety, reliability, and performance of the components and systems they develop.

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supriyab · 3 months

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Agricultural Testing Market Trends, Size, Share, Growth Opportunities, and forecast 2028

The global agricultural testing market is projected to reach USD 9.8 billion by 2028 from USD 6.7 billion by 2023, at a CAGR of 7.1% during the forecast period in terms of value. The agricultural testing market encompasses the industry dedicated to analysing various agricultural products such as soil, water, compost, biosolids, manure, and seeds to assess their quality, composition, and contaminant levels. This testing is essential for ensuring food safety, optimizing crop production, and maintaining environmental sustainability within the agriculture sector. As the global population grows and concerns about foodborne illnesses increase, there is a heightened focus on ensuring the safety and quality of agricultural products. Agricultural testing helps identify contaminants, pesticides, heavy metals, and pathogens, enabling proactive measures to uphold food safety standards. Advances in testing methods and technologies, including remote sensing, DNA testing, and rapid diagnostic techniques, have enhanced the efficiency and accuracy of agricultural testing, streamlined the process and reducing turnaround times.

Agricultural Testing Market Driver: Stringent safety and quality regulations for agricultural commodities

Stringent safety and quality regulations for agricultural commodities are the rules and standards established by regulatory bodies and governments to ensure that agricultural products adhere to specific safety and quality criteria. These regulations aim to protect public health, prevent the spread of diseases, and maintain the overall quality of agricultural products. The agriculture testing market is driven by the necessity to comply with these regulations. Agricultural producers, processors, and exporters must demonstrate that their products meet the established safety and quality standards before they can be sold in domestic or international markets. This requirement generates a demand for agriculture testing services, fueling the growth of the agriculture testing market.

Agricultural Testing Market Opportunities: Technological advancements in the testing industry

The focus on reducing lead time, sample utilization, cost of testing, and drawbacks associated with several technologies has resulted in the development of new technologies such as spectrometry and chromatography. Increased adoption of these technologies is an opportunity for medium- and small-scale laboratories to expand their service offerings and compete with large market players in the industry, as these technologies offer higher sensitivity, accuracy in results, reliability, and multi-contaminant and non-targeted screening with low turnaround time, among other benefits.

The agricultural testing industry is experiencing technological innovations as major players are offering faster and more accurate technologies such as liquid chromatography (LC), high-performance liquid chromatography (HPLC), and inductively coupled plasma mass spectrometry (ICP-MS) for testing the safety and quality of various agricultural samples. These methods are used in the detection of almost all targets to be tested, including pathogens, pesticides, toxins, and heavy metals, among others. One company that has made significant advancements in this area is AgroCares. In 2019, AgroCares launched the AgroCares Scanner, a handheld device that can analyze soil and crop samples on-site, providing real-time nutrient measurements. The device uses near-infrared spectroscopy to assess nutrient levels in the samples, eliminating the need for laboratory testing and reducing the time required to get results. Also, in 2021, the company Purigen Biosystems announced the launch of its new automated DNA extraction system, which is designed to help researchers and testing labs quickly and efficiently extract DNA from complex samples, including those from plants and other agricultural sources. The system uses a proprietary microfluidic technology to isolate and purify DNA and can process up to 96 samples at a time. Also in 2021, the company Eurofins announced the launch of its new "AgroSeq" DNA testing service, which is designed to help agricultural companies and researchers quickly and accurately identify and track genetic traits in crops and livestock. The service uses high-throughput sequencing technology to analyze DNA samples and provide detailed information about genetic variation, which can be used to improve breeding programs, monitor food safety, and more.

Download PDF Brochure: https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=203945812

By application, safety testing is projected to have fastest growing rate during the forecast period.

Products are governed by various national and international regulations, standards, and guidelines. To comply with these regulations and ensure that products meet the specified safety criteria, safety testing is essential. Non-compliance can lead to product recalls, legal issues, reputational damage, and loss of market access. By conducting safety testing, agricultural businesses demonstrate their commitment to regulatory compliance and the provision of safe products to consumers.

Since agricultural products are frequently traded internationally, they must meet the safety standards and import regulations of different countries. Exporting agricultural products necessitates compliance with the safety requirements of the destination market. Safety testing ensures that products meet these standards, helping to avoid trade barriers or rejections. Exporters must provide evidence of safety testing to prove their products' suitability for international markets.

Asia Pacific is expected to have the fastest growing rate during the forecast period.

The Asia-Pacific region is home to a significant portion of the global population, including countries like China and India, which have the world's largest populations. This densely populated region requires extensive agricultural production to meet the growing food demand. As a result, there is a greater need for agricultural testing to ensure the safety, quality, and productivity of agricultural products. The Asia-Pacific region has experienced rapid industrialization and urbanization, leading to increased pollution and pressure on agricultural lands. This has raised concerns about the impact of industrial activities and urban expansion on agricultural productivity and safety. Agricultural testing helps identify and mitigate potential contamination risks, ensuring the safety and sustainability of agricultural practices in the face of urban development.

Top Companies in the Agricultural Testing Market

The key players covered in the study include SGS (Switzerland), Eurofins (Luxembourg), Intertek (UK), Bureau Veritas (France), ALS Limited (Australia), TUV Nord Group (Germany), Merieux (US), AsureQuality (New Zealand), RJ Hill Laboratories Limited (New Zealand), SCS Global (US), Agrifood Technology (Australia), APAL Agricultural Laboratory (Australia), Agvise Laboratories (US), LGC Limited (UK) and Water Agricultural Laboratories (US).

#Agricultural Testing Market #Agricultural Testing Market Size #Agricultural Testing Market Share #Agricultural Testing Market Growth #Agricultural Testing Market Trends #Agricultural Testing Market Forecast #Agricultural Testing Market Analysis #Agricultural Testing Market Trpoty #Agricultural Testing Market Scope #Agricultural Testing Market Overview #Agricultural Testing Market Outlook #Agricultural Testing Market Drivers #Agricultural Testing Industry #Agricultural Testing Companies

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integratedndesolution · 3 months

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Integrated NDE Solution in Pune: Excellence in Portable Hardness Testing

In industries that rely heavily on material integrity and performance, understanding the hardness of materials is crucial. Hardness testing is a vital non-destructive testing (NDT) method used to assess the mechanical properties of materials, ensuring they meet specific performance standards. Integrated NDE Solution in Pune excels in providing comprehensive NDT services, with a specialized focus on portable hardness testing. This article delves into the intricacies of hardness testing, highlights its benefits, and explores the cutting-edge services and equipment offered by Integrated NDE Solution.

Understanding Hardness Testing

Hardness testing measures a material's resistance to deformation, typically by indentation. It provides valuable information about the material's strength, wear resistance, and ability to withstand various service conditions. There are several methods of hardness testing, each suitable for different materials and applications. Portable hardness testing is particularly advantageous for on-site assessments and large components that cannot be easily transported to a laboratory.

Importance of Hardness Testing

Material Selection: Ensures the material meets the necessary hardness specifications for its intended application.

Quality Control: Helps in maintaining consistent production quality by verifying material properties.

Failure Analysis: Identifies material failures and prevents future occurrences by understanding hardness-related issues.

Wear Resistance: Assesses the material's ability to resist wear and abrasion in demanding environments.

Types of Hardness Testing Methods

Rockwell Hardness Test: Measures the depth of penetration under a large load.

Brinell Hardness Test: Involves pressing a hard steel or carbide ball into the material.

Vickers Hardness Test: Uses a diamond pyramid indenter to create a small indentation.

Leeb Rebound Hardness Test: Measures the rebound velocity of a test body after it impacts the material.

Shore Hardness Test: Commonly used for plastics and elastomers, measuring the indentation hardness.

How Portable Hardness Testing Works

Portable hardness testing involves using a compact, handheld device that can be easily carried and used on-site. The process typically includes the following steps:

Surface Preparation: The surface of the material is cleaned to remove any contaminants that could affect the test results.

Calibration: The portable hardness tester is calibrated using reference materials with known hardness values.

Testing: The tester is placed on the material's surface, and an indentation is made or rebound measurement is taken.

Reading: The hardness value is read directly from the device's display.

Analysis: The results are analyzed to determine if the material meets the required hardness specifications.

Benefits of Portable Hardness Testing

Non-Destructive: Does not damage or alter the material being tested.

Quick and Efficient: Provides immediate results, enabling rapid decision-making.

Versatile: Suitable for a wide range of materials, including metals and plastics.

Convenient: Ideal for on-site testing, especially for large or immovable components.

Cost-Effective: Reduces the need for extensive laboratory testing and transportation of samples.

Integrated NDE Solution in Pune: Pioneers in Hardness Testing

Integrated NDE Solution in Pune is a leader in the field of non-destructive testing, offering a broad spectrum of NDT services, including portable hardness testing. Their expertise, state-of-the-art equipment, and commitment to quality make them a trusted partner for industries requiring reliable inspection services.

Comprehensive NDT Services Offered

Portable Hardness Testing

Magnetic Particle Inspection (MPI)

Ultrasonic Testing (UT)

Radiographic Testing (RT)

Liquid Penetrant Testing (LPT)

Eddy Current Testing (ECT)

Visual Inspection (VI)

Industries Served

Integrated NDE Solution in Pune caters to a diverse array of industries, including:

Aerospace: Ensuring the safety and reliability of aircraft components.

Automotive: Inspecting critical parts to prevent failures.

Construction: Verifying the integrity of structural components.

Oil and Gas: Ensuring the reliability of pipelines and equipment.

Power Generation: Maintaining the integrity of infrastructure components.

Plastic Manufacturing: Ensuring the hardness of plastic components to meet specific standards.

Portable Hardness Testing in Action

Case Study: Aerospace Component Inspection

In the aerospace industry, the reliability of components is paramount. Integrated NDE Solution was approached by a leading aerospace manufacturer to conduct portable hardness testing on critical components made of advanced alloys. The hardness testing confirmed that the components met the stringent specifications required for aerospace applications, ensuring their performance and safety.

Case Study: Automotive Part Verification

A major automotive manufacturer required hardness testing for steel components used in their vehicles. Integrated NDE Solution employed portable hardness testers to measure the hardness of these parts on-site. The results verified that the components had the required hardness to withstand the demanding conditions of automotive applications, ensuring their durability and reliability.

Advanced Portable Hardness Testing Equipment

Integrated NDE Solution in Pune utilizes the latest portable hardness testing equipment to ensure the highest level of accuracy and reliability in their inspections. Some of the advanced equipment includes:

Portable Rockwell Hardness Testers: Ideal for on-site testing of metals.

Portable Brinell Hardness Testers: Suitable for larger components and softer metals.

Portable Vickers Hardness Testers: Used for precise hardness measurements on small or thin components.

Leeb Rebound Hardness Testers: Provides quick and accurate measurements for a wide range of materials.

Shore Hardness Testers: Used for testing the hardness of plastics and elastomers.

The Role of Certified Technicians

The effectiveness of hardness testing largely depends on the expertise of the technicians conducting the tests. Integrated NDE Solution in Pune employs certified technicians who undergo rigorous training and continuous professional development. Their skills and knowledge ensure that clients receive the highest quality of service.

Commitment to Quality and Safety

Integrated NDE Solution in Pune is dedicated to maintaining the highest standards of quality and safety. They adhere to international standards and best practices, ensuring that all inspections are performed with utmost precision and reliability. This commitment to excellence has earned them a stellar reputation in the industry.

Customer-Centric Approach

At Integrated NDE Solution in Pune, customer satisfaction is a top priority. They work closely with clients to understand their specific needs and tailor their services accordingly. Whether it’s a small-scale inspection or a large industrial project, they provide personalized solutions that meet the highest standards of quality and reliability.

Why Choose Integrated NDE Solution in Pune?

Expertise: Extensive experience and technical know-how in NDT services.

Technology: Utilization of the latest and most advanced testing equipment.

Quality: Commitment to providing accurate and reliable results.

Customer Service: Focus on building long-term relationships through excellent service.

Compliance: Adherence to all relevant industry standards and regulations.

Conclusion

In industries where precision and reliability are non-negotiable, Integrated NDE Solution in Pune stands out as a leader in non-destructive testing, particularly in portable hardness testing. Their dedication to quality, use of advanced technology, and customer-centric approach makes them the go-to choice for businesses across various sectors. By partnering with Integrated NDE Solution, companies can ensure the integrity and safety of their materials and components, safeguarding their operations and reputation.

Integrated NDE Solution in Pune continues to set the standard for excellence in non-destructive inspection. Their expertise in portable hardness testing and other NDT services is pivotal in industries where safety and reliability are crucial. As technology advances and industries evolve, Integrated NDE Solution remains at the forefront, offering unparalleled service and support to their clients.

In conclusion, for businesses seeking the highest standards in hardness testing, portable hardness testing, and comprehensive NDT services, Integrated NDE Solution in Pune is the trusted partner that delivers results. Their innovative approach, advanced technology, and unwavering commitment to quality ensure that every inspection meets the stringent requirements of today’s demanding industrial environments.

#hardness testing #portable hardness testing #metal hardness tester #steel hardness tester #plastic hardness test

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homeimprovementway · 8 months

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How Many Watts Does a Circular Saw Use? Maximize Your Cutting Power!

A circular saw typically uses around 1,500 to 2,500 watts. A circular saw is a common tool used for cutting wood and other materials. It uses a motor to generate power, and the wattage indicates the amount of electricity it consumes. The range of wattage depends on the size and power of the saw. Smaller handheld circular saws typically require around 1,500 to 2,000 watts, while larger and more powerful models can consume up to 2,500 watts. Knowing the wattage of a circular saw is important for understanding its energy requirements and for selecting the appropriate power source or generator. By understanding the wattage, users can ensure they have the necessary power supply to operate the circular saw effectively and safely.

Credit: www.homedepot.com

Understanding Circular Saw Power

When it comes to power tools, understanding their power requirements is crucial. Circular saws, in particular, are versatile tools that come in handy for various cutting tasks. Knowing how many watts a circular saw uses can help you determine the appropriate power supply and ensure optimal performance. Circular Saw Power Consumption Circular saws typically have power ratings measured in watts. The power consumption of a circular saw depends on various factors, such as blade size, motor efficiency, and the material being cut. Generally, most circular saws used for household or professional purposes consume between 1,200 to 2,500 watts of power. Factors Affecting Power Usage Several factors can affect the power usage of a circular saw: - Blade size: The size of the circular saw blade directly impacts the power consumption. Larger blades require more power to spin, resulting in increased wattage usage. - Motor efficiency: The motor efficiency of the circular saw plays a crucial role in power consumption. Motors with higher efficiency tend to use power more effectively, leading to lower wattage requirements. - Material being cut: The type and thickness of the material being cut also affect power consumption. Cutting denser materials, such as hardwood or metal, may require more power compared to cutting softwood or lightweight materials. - Cutting speed: The speed at which you operate the circular saw can impact power usage. Operating the saw at higher speeds may require more power, especially when you encounter resistance. By understanding these factors, you can make informed decisions about the power supply and usage while using a circular saw. It is always recommended to check the manufacturer's guidelines for the specific wattage requirements of your circular saw model.

Choosing The Right Circular Saw For Power Efficiency

When it comes to power tools, it's always a good idea to choose wisely to ensure efficiency and effectiveness in your projects. This holds true when selecting the right circular saw for power efficiency. By analyzing and considering the appropriate power rating and factors that affect power usage, you can make a well-informed decision that optimizes both performance and energy consumption. Selecting The Appropriate Power Rating One of the primary considerations when shopping for a circular saw is the power rating. This rating is measured in watts and indicates the amount of power the saw consumes during operation. It's essential to choose a circular saw with an appropriate power rating to match the requirements of your specific tasks. This ensures that the saw operates smoothly without overloading or wasting energy. When determining the appropriate power rating for your circular saw, consider the nature and scope of your projects. Generally, higher-powered saws are more suitable for heavy-duty tasks, such as cutting thick pieces of hardwood or dense materials. On the other hand, lower-powered saws are suitable for lighter projects or for occasional use. Keep in mind that selecting a saw with a power rating that exceeds your needs may result in unnecessary energy consumption and increased expenses. Considerations For Efficient Power Usage In addition to selecting the right power rating, there are several factors to consider for efficient power usage when using a circular saw: - Blade quality: Choosing a high-quality blade specifically designed for the material you are cutting can significantly impact power usage. A sharp and well-maintained blade reduces the effort required and minimizes strain on the motor, leading to improved energy efficiency. - Adjustable depth settings: Circular saws equipped with adjustable depth settings allow you to customize the cutting depth according to your needs. By setting the depth to the required level, you can conserve power and reduce wasteful cutting. - Efficient cutting techniques: Adapting efficient cutting techniques, such as using steady, controlled movements and guiding the saw smoothly along the cutting line, can help reduce power consumption. Avoid forcing the saw or applying excessive pressure, as this can strain the motor and waste energy. By considering these factors, you can maximize the power efficiency of your circular saw and complete your projects with minimal energy consumption. Remember, a well-maintained and appropriately used circular saw can not only save you money on energy costs but also extend the lifespan of the tool itself.

Maximizing Cutting Power

A circular saw is a powerful tool commonly used in woodworking and construction. To ensure maximum cutting power and efficiency, it's crucial to optimize the setup and utilize proper techniques. By understanding the wattage usage of a circular saw and implementing smart strategies, you can enhance its performance and achieve precise cuts. Optimizing Circular Saw Setup When it comes to maximizing the cutting power of a circular saw, optimizing the setup is essential. Be sure to use a high-quality blade suitable for the material you're cutting. Equally important is keeping the saw well-maintained, including keeping the blade sharp and ensuring the motor is in good condition. Additionally, a stable and level work surface helps to maximize the saw's cutting power, reducing vibration and enhancing accuracy. Techniques For Efficient Cutting Efficient cutting not only saves time but also enhances the overall performance of a circular saw. Utilize proper blade alignment and adjust the cutting depth to match the thickness of the material. Employing a consistent and steady cutting speed can reduce strain on the saw motor, optimizing its usage of watts and prolonging its lifespan. Additionally, using support tools such as guides and clamps can aid in achieving clean and precise cuts.

Credit: www.harborfreight.com

Maintaining Power Efficiency

Circular saws typically use between 1,200 to 1,800 watts of power, which allows for efficient cutting through various types of materials. It is important to maintain power efficiency by using the appropriate wattage for the task at hand. Regular Maintenance Maintaining power efficiency is crucial for optimizing the performance of your circular saw. Regular maintenance helps to keep your saw running at its best and reduces energy consumption. Here are a few maintenance tasks that you should regularly perform: - Clean the saw regularly to remove any dust or debris that may affect its performance. A clean saw operates more efficiently, requiring less power to cut through materials. - Check the saw's power cord for any signs of damage, such as fraying or exposed wires. Damaged cords can lead to power loss, so it's essential to replace them promptly. - Inspect the saw's blade for any signs of wear or damage. A dull or damaged blade requires more power to cut through materials, resulting in increased energy consumption. Keep the blade sharp by regularly sharpening or replacing it. - Ensure that all the saw's components, such as the motor, bearings, and gears, are in good working condition. Faulty parts can cause the saw to strain and consume more power than necessary. Improving Ergonomics For Power Conservation Aside from regular maintenance, you can also improve the ergonomics of your work with a circular saw to conserve power. By using proper techniques and optimizing your workspace, you can reduce unnecessary strain on the saw and make your cuts more energy-efficient. Here are a few tips: - Position yourself and the material you're cutting in a way that minimizes the saw's effort. This helps the saw operate more smoothly and with less energy consumption. - Invest in a saw with ergonomic design features, such as a comfortable grip and adjustable handles. This can help reduce fatigue during prolonged use and improve overall efficiency. - Use the appropriate saw blade for the material you're cutting. Using the wrong blade can lead to inefficiency, as the saw may struggle to make the cut and consume more power. - Consider using jigs or guides to assist with making straight cuts. This reduces the chances of the saw veering off course, which would require additional power to correct.

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Frequently Asked Questions For How Many Watts Does A Circular Saw Use

How Big Of A Generator Do I Need For A Circular Saw? For a circular saw, a 2000 to 3000-watt generator should suffice for most models. Check the saw's specifications for precise power requirements. What Size Inverter Do I Need To Run A Circular Saw? You will need an inverter that can handle the power requirements of a circular saw. The size of the inverter will depend on the wattage of the saw. It is recommended to choose an inverter with a higher wattage capacity to ensure optimal performance. How Many Watts Are Needed To Run A Circular Saw? It typically requires about 1,200 to 1,500 watts to efficiently power a circular saw. How Many Watts Does A Saw Use? A typical saw can use anywhere from 500 to 1500 watts, depending on the type and size.

Conclusion

Understanding the power requirements of circular saws is essential for safe and efficient operation. By knowing the wattage needed, users can ensure they have the right equipment for the job. As detailed in this blog post, the power usage of circular saws varies depending on the type and model. With this knowledge, users can make informed choices and work confidently with their tools. Read the full article

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analytical-harshad · 8 months

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Harshad Group - Gold Analysis | Gold Testing | Gold Refinery | Gold Melting Machine | Precious Metal Weighing Scales

Title: Gold Analysis Made Easy with XRF Technology: Explore Harshad Group's Range of Desktop and Handheld XRF Machines

Introduction:

The analysis of gold is a critical process for jewelers, refineries, and mining companies. Accurate and efficient gold testing is essential to determine the purity and composition of this precious metal. Harshad Group, a leading provider of analytical instruments, offers a comprehensive range of XRF machines for gold analysis. Partnering with reputed companies like Fischer and Olympus Evident, Harshad Group brings you cutting-edge desktop and handheld XRF machines. In this article, we will delve into the significance of XRF technology for gold analysis and introduce you to Harshad Group's extensive collection available at https://analytical.harshad.com/product-category/gold-testing/.

The Power of XRF Technology for Gold Analysis:

X-ray fluorescence (XRF) technology has revolutionized the field of gold analysis. XRF machines utilize the principle of exciting gold samples with X-ray radiation, causing them to emit characteristic fluorescent X-rays. By measuring the energy and intensity of these X-rays, XRF instruments can determine the elemental composition of the gold sample, including the presence of impurities and alloying elements. This non-destructive method provides quick and reliable results, making XRF an indispensable tool for gold testing.

Harshad Group's Desktop XRF Machines:

Harshad Group offers a range of desktop XRF machines from reputed manufacturers like Fischer and Olympus Evident. These state-of-the-art instruments are designed to deliver precise and accurate gold analysis results. The desktop XRF machines provide excellent sensitivity and resolution, enabling you to detect even trace elements and impurities in your gold samples. With user-friendly interfaces and powerful analytical software, these machines streamline the gold testing process, enhancing productivity and efficiency.

Handheld XRF Machines for On-the-Go Analysis:

For those who require flexibility and portability in gold analysis, Harshad Group also offers handheld XRF machines. These portable instruments provide the convenience of on-site testing, eliminating the need to transport samples to a laboratory. With their lightweight design and robust construction, handheld XRF machines allow you to analyze gold samples quickly and accurately, even in challenging environments. Harshad Group's collection of handheld XRF machines, available at https://analytical.harshad.com/product-category/gold-testing/, offers various models with advanced features, ensuring reliable results wherever you are.

Popularity in the Middle East and Africa:

Harshad Group's XRF machines for gold testing have gained immense popularity in the Middle East and Africa. Countries like Sudan, Ghana, Burkina Faso, Burundi, Ivory Coast, and Uganda have witnessed a significant demand for these instruments. The reliability, accuracy, and efficiency of Harshad Group's XRF machines have made them the preferred choice for gold analysis in these regions. With their commitment to delivering high-quality products and comprehensive customer support, Harshad Group has built a strong reputation as a trusted supplier of XRF machines.

Conclusion:

When it comes to gold analysis, XRF technology has become indispensable in the industry. Harshad Group, in collaboration with renowned manufacturers like Fischer and Olympus Evident, offers a wide range of desktop and handheld XRF machines for gold testing. By visiting https://analytical.harshad.com/product-category/gold-testing/, you can explore their extensive collection and find the perfect solution for your gold analysis needs. Whether you're in Sudan, Ghana, Burkina Faso, Burundi, Ivory Coast, Uganda, or any other country in the Middle East or Africa, Harshad Group's XRF machines will empower you to analyze gold with accuracy, efficiency, and convenience.

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harshadgroupsblog · 9 months

Text

Harshad Group - Gold Analysis | Gold Testing | Gold Refinery | Gold Melting Machine | Precious Metal Weighing Scales

Title: Gold Analysis Made Easy with XRF Technology: Explore Harshad Group's Range of Desktop and Handheld XRF Machines

Introduction:

The Power of XRF Technology for Gold Analysis:

Harshad Group's Desktop XRF Machines:

Handheld XRF Machines for On-the-Go Analysis:

Popularity in the Middle East and Africa:

Conclusion:

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