Exploring MS Plates: Varieties, Applications, and Their Design Impact with Top Brands from SteelonCall

Diverse Varieties of MS Plates

Mild Steel (MS) plates, celebrated for their robustness and adaptability, come in various types to suit different industrial and construction needs:

Standard MS Plates: These versatile plates are the go-to choice for general applications. Their balanced mix of strength and flexibility makes them ideal for structural supports, machinery parts, and general fabrication tasks.

High Strength Low Alloy (HSLA) Plates: Designed to offer enhanced strength without compromising weldability, HSLA plates are perfect for demanding applications. They are commonly used in heavy machinery, bridges, and other high-stress environments.

Corrosion-Resistant Plates: Coated or treated to withstand environmental wear, these plates are used in areas prone to moisture and chemicals. They are ideal for outdoor installations and marine applications where durability against corrosion is crucial.

Quenched and Tempered Plates: Through specific heat treatments, these plates gain exceptional hardness and impact resistance. They are utilized in heavy-duty machinery and equipment that require superior strength and durability.

Wide-Ranging Applications of MS Plates

The applications of MS plates span a diverse array of sectors, reflecting their integral role in modern industry and construction:

Construction: In construction, MS plates are essential for structural components like beams, columns, and reinforcements. They provide the necessary stability and strength for buildings, bridges, and infrastructure projects.

Manufacturing: The industrial sector relies on MS plates for machinery and equipment fabrication.

Automotive Industry: MS plates are used extensively in automotive production for vehicle bodies and chassis. Their strength and formability are key to producing safe and reliable automotive parts.

Shipbuilding: In the maritime industry, MS plates are fundamental in constructing ship hulls and decks. 

Agricultural Equipment: MS plates are utilized in the production of agricultural machinery. Their toughness and ability to withstand heavy loads make them ideal for farming equipment.

Impact of MS Plates on Design Innovation

MS plates are not only functional but also inspire creative design solutions:

Architectural Innovation: In contemporary architecture, MS plates are often used for their sleek, industrial aesthetic. They feature prominently in building facades, decorative elements, and structural highlights, contributing to modern architectural styles.

Custom Fabrication: The flexibility of MS plates allows for custom designs and fabrications. From bespoke furniture to artistic installations, their ability to be cut, welded, and shaped supports unique and tailored design solutions.

Facade Solutions: For building facades, MS plates can create striking visual effects while providing durability. Various treatments and finishes offer designers flexibility in achieving distinctive and functional exterior designs.

Versatile Design Options: The range of finishes and treatments available for MS plates enables their use in diverse design contexts. This adaptability allows for integration into both interior and exterior designs, meeting varied aesthetic and functional requirements.

Premium MS Plates Available at SteelonCall

At SteelonCall, we offer a selection of high-quality MS plates from renowned brands, ensuring that you receive the best materials for your projects:

Vizag Steel: Renowned for its superior quality and reliable performance, Vizag Steel’s MS plates are ideal for a range of applications, providing both strength and durability.

SAIL: SAIL offers a wide array of MS plates known for their consistent quality and performance, suitable for various industrial and construction needs.

Jindal: Jindal’s MS plates are celebrated for their exceptional strength and resilience, making them a preferred choice for demanding applications in construction and manufacturing.

Conclusion

MS plates are a fundamental component in numerous industrial and construction applications, valued for their strength, versatility, and adaptability. At SteelonCall, we provide top-quality MS plates from leading brands like Vizag Steel, SAIL, and Jindal, complete with test certificates to ensure authenticity and performance. Whether you need MS plates for construction, manufacturing, or innovative design projects, our range of products meets your highest standards.

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people say the most uninformed shit about the time in which germany was divided to support whatever point they care about omg

Tunisia's Marble Production: A New Project Featuring Gantry and Overhead Cranes

Welcome to our latest blog installment where we divulge into our exciting new project, this time catered towards the thriving Marble industry in Tunisia. Our company is taking a significant leap by introducing a series of state-of-the-art cranes, primed to boost productivity and efficiency at an unprecedented scale. The project consists of two 20+5 ton gantry cranes, one 32 ton gantry crane and a…

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Couldnt it be argued that the US is still a slave republic? Domestically, there is slave labor through the prison system, human and labor trafficking, and only a few decades ago, if at that, systems such as convict leasing, share cropping, and debt peonage. Internationally, there is also the fact that for conflict minerals, coffee, chocolate, and other commodities, a portion if not the majority of it is sourced from slave labor.

The use of slavery in and of itself doesn't constitute the slave-society stage of production. Slavery continues to exist under feudalism and capitalism, but not as the driving force of society as in the ancient slave republics. Politically, in the modern USA, it is the bourgeoisie that are in power; and economically, it is the exploitation of waged labour (much of it overseas) that is the basis of production.

Further, slaves in the US are owned either by the state, in state prisons, and leased to private companies; or owned by large companies directly in private prisons. The individual or smallholder ownership of slaves was done away with in the USA's previous civil war: carried out between the industrial haute-bourgeois of the developed north, and the agricultural petty gentry of the southern hinterland. Slaves in the US today are the exclusive property of the bourgeoisie, through their corporations or bourgeois state.

While large amounts of raw materials are sourced through slave labour, as are agricultural goods, slave labour in the broadest sense is not applicable to industrial production of the type required by modern capitalism - if for nothing else than reasons of profitability. The slave labourer is effectively themselves human capital, part of the machinery bought wholesale - while they still effectively carry out labour, they fundamentally do not produce surplus value in the same manner as a wage-worker; it is necessary for their food and other reproductive labour to be given to them without cost, in the same way one carries out maintenance on equipment - whereas a wage-worker is only purchased and employed as capital for the duration of the workday, and then is responsible for their own food, housing, and reproductive labour. The principal exception to the use of slave labour in industrial production (which already has an exceedingly high fixed-capital cost compared to agriculture) is in the historical case of fascism, where primitive accumulation and war industry led to conditions favourable to industrial slave labour, which was carried out en-masse by e.g. German industrial syndicates using concentration camp labourers.

While the earlier USA, as a settler nation, made heavy use of both slavery and primitive accumulation, this was necessarily a historically-contingent process, one carried out by the European empires precisely because the Americas had not been 'brought up to' the level of social contradiction they had. Slavery's profitability necessarily fell as the USA industrialised, and remains now only in certain key industries like agriculture and military production. Historically, again, the movement to make slavery a profitable general venture in the era of capitalism is the fascist movement, which attempts generally to replace the proletariat at large by mobilising the higher strata upwards, into petty-bourgeois smallholders (e.g. wehrbauern), converting the middle strata into slaves, and exterminating the lower strata - a movement that fundamentally requires both large swathes of cleared land as well as mass depopulation, due to the lower population density such an essentially backwards mode of production can support. Ultimately, it is a project doomed to failure, due to the impossibility of turning back history - but one the bourgeoisie are inevitably driven to attempt when capitalism starts nearing the end of its profitability.

In the USA, historically, the exploitation of indigenous nations and external colonies has provided a source of profit and primitive accumulation that has rendered a genuine fascist movement effectively unnecessary, despite the middle-class yearning for it, but these systems are themselves drying up, and the US, while not a slave republic, will soon start attempting to fashion itself into one by carving up its population.

I hope this has answered your question, thank you for writing in!

The Harris Sawmill

The Harris Sawmill, a prominent structure at the edge of town, stands as a testament to the community's industrious spirit. It’s one of the primary sources of employment in the small town, providing essential materials and craftsmanship that support both local needs and exports. Through many generations, the Harris family has owned this sawmill, and as of today, Michael Harris continues this tradition.

The heart of the operation is the expansive sawmill floor, filled with the hum of machinery and the rhythmic sound of saws cutting through timber. Here, logs are transformed into beams, planks, and various wood products.

Adjacent to the main floor is a workshop where workers build and assemble various wooden structures. This area is stocked with tools and workbenches, creating a space where creativity and craftsmanship converge. From custom furniture to intricate carvings, the workshop showcases the town’s skilled artisans.

As of year 2, the employees of the sawmill are:

Markus Estrada: Foreman. As the foreman, Markus oversees the day-to-day operations on the floor. He ensures that the work is done safely and efficiently, balancing the demands of Michael with the needs of the workers. His leadership is respected, providing a buffer between the workers and Michael’s stringent expectations.

Bill Kwon: Welder. Bill handles all the metalwork, ensuring that the machinery is well-maintained and that any custom metal fittings or repairs are expertly executed. His precision and skill are vital to the smooth running of the sawmill.

Nasir Bahij. Crane Operator. Nasir skillfully operates the crane, moving large logs and heavy materials with ease. His role is critical in maintaining the flow of raw materials into the sawmill and finished products out to customers.

Max Ford. Cladding Installer. Max specializes in cladding, applying finishes and protective layers to wood products. Her attention to detail ensures that the sawmill’s output meets the highest standards of durability and aesthetics.

Damian Murphy. Drill Press Operator. Damian operates the drill press, creating precise holes and cuts needed for various wood products. His meticulous nature and technical expertise contribute significantly to the quality of the mill’s craftsmanship.

At the front of the sawmill is a small hardware store managed by Michael Harris. The store is well-stocked with tools, building materials, and supplies needed for both professional projects and DIY endeavors.

Tactics

The power of worker strategy and tactics – as workers – derives from their special place within processes of re/production and distribution. The most powerful tactic on the whole is the strike – the refusal to do land and labor destroying work. The strike is the most potent direct action – stopping harm from happening and making it difficult or impossible for capital to continue them. It is not a moral appeal, request, or even demand – it is consequential action that achieves the intended aim directly, without the mediation involved in third party actions.

This depends of course on the level of rank-and-file organizing and capacity to stop scabs from being deployed or to block conservative union leadership from crafting deals with management. No tactic is deployed in a pure form and organizing is always itself an action. But even then, using scabs incurs a cost on capital.

Another key tactic is sabotage. The place of workers in acts of sabotage can be crucial when we talk about green actions, because sabotage can have harmful consequences to natural environments, particularly where heavy industry is involved. Workers have a close familiarity and understanding of industrial processes they are involved in and how they can be sabotaged effectively in ways that are not destructive of nature. They also know the most significant break points to shut things down.

Workers, because of their placement and positionality also have access to industrial processes that environmentalists and others do not have and may not be able to gain. This access cannot be overlooked.

I have had numerous conversations with workers, going back to my days as an autoworker, who carry out sabotage within industrial plants to block harmful processes from happening (plugging drains, stopping effluent, disabling machinery with toxic exhausts, etc.). Sometimes it can be as innocuous in appearance as putting a part on the assembly line slightly improperly and ruining most of a shift of production (as I may or may not have done).

Blockades. Logistical workers have long histories of organizing blockades in support of community movements and against destructive ecological or social conditions. Perhaps the most prominent example recently has been the blockading by dockworkers of Israeli state shipping lines.

Boycotts. Workers can effectively initiate boycotts of harmful products, working with community members to take harmful processes or products out of operation. Insider boycotts against harmful materials or against materials hat are sourced from ecologically or socially destructive origins or from dubious sources (apartheid companies, etc.) offer unique promise.

On the Skidelsky/Fuller post I reblogged, I absolutely welcome automation given the following criteria:

1. The output is identical or, holistically, more positive than human labor output

2. This automation occurs within an economic system in which GDP growth (or similarly fraught metrics) is not the primary objective

3. The automation aids the sustainability of nature and humanity

The USA's agriculture industry is a wonderful example of modern automation failing all three of these criteria. Throughout the entire industrial revolution, agriculture has trended away from being a society-wide confederation of family/community-scale, labor-intensive smallholdings to our current reality of a small number of monolithic industrial farms that are maintained by astoundingly few people who operate increasingly complex and expensive equipment.

Our massive-scale industrial farms are fantastic at what they were designed for; they grow as much of a staple crop as possible without regard to human or environmental health, doing so using minimal labor. Fundamentally, it is an extractive industry. Fossil fuels are extracted to power the machinery, processing, and logistics systems. Nutrients are extracted from the soil to the point that crop growth can only be sustained with heavy amounts of industrial fertilizer input. Entire ecosystems are sacrificed when forests are cleared to be exploited and repeatedly battered with pesticides. This is all primarily to produce soybeans, feed corn, and cotton to then process into products like factory farm livestock feed-slurry, corn syrup, junk food, and sweatshop garments. Secondarily, it is to produce flavorless, nutrition-void produce that can be sold year-round. Consistency is the goal, although one may find that nature itself is curiously inconsistent.

This case study of automation's failings can be traced back to a few major factors:

1. Old-style agriculture work is disagreeable to the USA's perverted fascination for infinite GDP growth; each farm laborer that can be replaced by a machine is a potential worker that could move into a city (or suburb) and put in the same amount of hours at a higher-dollar job. It's just opportunity cost, and this is more-or-less what Skidelsky and Fuller find offensive about our current labor zeitgeist; instead of the now-jobless laborers being free to pursue their interests, they are instead shoehorned into some shitty desk job that produces a relatively greater amount of money to be leeched by executives and shareholders -- this is "more productive" to our economy on the basis of GDP growth and thus must be prioritized over agricultural labor.

2. Industrial approaches to large-scale agriculture are inherently reductive to an extreme extent. Nature is far more complex than Liebig or any other enlightenment thinker ever imagined. Industrialization is great at making cars or computer chips or Gucci jackets or whatever, as these are things that can be standardized with relative ease. Nature cannot be tamed and standardized in a similar way; ecosystems, particularly soil ecosystems, can vary massively even in small areas of the same climate type. Our agriculture systems cope with this simply by ignoring such factors and reducing crop growth to a formula. In X region, plant Y variety of Z crop on A date and apply a regimen of B-type fertilizer and C-type pesticide on D date etc etc. This is the most egregious reduction of something in all of history.

Liebig's reduction of agriculture to the NPK model, just three elements, is good for achieving the singular goal of making your plant of choice come out of the ground, but it ignores all the nuance of soil, climate, and evolution. The other factors don't matter. Modern lab-designed fertilizers often feature a plethora of additional micronutrients, but the goal is still to produce a healthy crop, not healthy soil. Soil itself is an organism, it is something that must be nurtured to be healthy; industrial pesticide/fertilizer regimens are to the soil as feed slurry/antibiotic regimens are to factory farm animals.

Natural processes are, itself, the greatest form of automation for agriculture. Plants and animals that are native to a region have evolved to grow there regardless of human intervention. It is our disruption of these processes that forces agriculture to be labor/resource-intensive. This isn't to say that everyone must immediately abandon all non-native foods and adopt a primarily undomesticated Ötzi diet, but instead, it's worth considering that the complexity of modern technology is not even close to being at parity with the complexity of nature; nature has a several billion year head start. There is no way to flawlessly "tame" it with technological solutions, but a comfortable middle ground can certainly be found.

If sustainable, climate-friendly food production is the primary objective of agriculture, this is far more easily achieved by small, ecology-considerate farms than massive, largely automated industrial farms. A healthy soil ecosystem will aid in growth, flavor, nutrition, and, (quite importantly) carbon sequestration. Broadforking, shoveling, and wheelbarrow-pushing is absolutely more labor intensive than sitting back in a huge John Deere tractor with GPS-based autopiloting features, but the extra labor can turn a woefully extractive process into one that is instead highly regenerative.

Galantis ⋆｡𖦹 °.🐚⋆❀˖°

A Fan-Made Pirate101 World 🐌💧💻

This post will cover the basics and main inspirations of my fanmade Pirate101 World, Galantis! I hope you all enjoy~

𓂃𓂃𓂃𓊝 ࿐𓂃𓂃𓂃𓂃𓂃𓂃𓊝 ࿐𓂃𓂃𓂃

Overview 🌊⋆｡°்⋆

Galantis is a closed-off world in the Spiral, locked by the current Emperor; and guarded by his army. If a person is able to reach Galantis, they will discover a technologically advanced, oceanic paradise; hidden away from the rest of the world. The Stormgate to Galantis is located in MooShu, but is inaccessible to any travelers.

The initial reason for Galantis's closed borders was due to the Polarian War. The Emperor did not wish to get involved in the conflict, and feared involvement due to the relative closeness between Galantis and its neighboring world of MooShu. So, the borders were closed, and the Emperor ignored the outside world; instead focusing on the personal development of his nation through machinery and economy.

.•⋅˚₊The People ଳ ‧₊˚

Since many Pirate101 worlds, and to a further extent, Wizard101 worlds, have many diverse species of people; and Galantis is no exception. The people of Galantis are from the class Gastropoda; aka, slugs and snail-adjacent animals. They are specifically based on the marine variants of these animals, sea slugs and sea snails.

The current ruling Emperor of Galantis, Emperor Gyeong Glaucus, is a type of Glaucus Altanticus (See image below).

Sea slugs and sea snails are very diverse animals from species to species, and this is reflective of the population of Galantis.

𓂂 ·˚ •Culture 🌊🪸

Galantis is inspired by East Asian culture, specifically South Korea and North Korea. Another main inspiration for Galantis is the legend of Atlantis, a city from Greek mythos written by Plato.

One major invention from Galantis is a form of energy source known as "Bio-Lumi Fuel". Bio-Lumi Fuel is harvested from the organic plant-life from the World, and is what powers a majority of Galantis's technology. Due to the power of Bio-Lumi Fuel, the Galantians have been able to invent their own forms of machines, robots, and screens.

Therefore, culture and trends are very mainstream. Many different styles of fashion have rose to popularity through the influences of music idols in the music industry.

Sea Angelic 🐌🪽

A fashion style known as "Sea Angelic" was popularized by the musical idol "Sea Angel" or Cheonsa Clione. This fashion style is more traditional, and takes inspiration from traditional Korean clothing and acessories. Such as the usage of the hanbok and norigae.

Cyber Screen 🐌💻

One of the most mainstream styles of fashion in Galantis: popularized by the most well-known musical idols, Nembrotha and BLUE SCREEN. This style is more akin to the styles of Cyber Punk, mixed with modernized fashion. The main elements of this style is the usage of the color blue, and the heavy reliance on Galantian technology.

These are only a few of the most popular fashion styles in this World.

˖°🌊⋆Landscape🐚🫧

Galantis has two main Skyways, Palansaeg Skyway and Nudibranch Skyway. It only has one Stormgate, located in Palansaeg Skyway; leading to MooShu. The land is a purplish-blue tint, and the skies are a deep purple tone. The player is able to see jellyfish-like animals floating around the Skyways.

Palansaeg Skyway (Korean: 파란색 스카이웨이)

The main Skyway of Galantis, containing the capital city, Soul City. Soul City is very urbanized, utilizing Bio-Lumi technology. The music industry flourishes in Soul City, allowing for the world as a whole to improve its economy.

Fun Fact: "Palansaeg" is the Korean for the phrase "Blue". So, Palansaeg Skyway roughly translates to: "Blue Skyway".

Nudibranch Skyway

The secondary Skyway of Galantis, mostly inhabited by farmers, religious figures, and those who wish to escape the bustling Palansaeg Skyway. The main industry in Nudibranch Skyway is food production, mainly algae, cnidarians, corals, and sponges.

Fun Fact: "Nudibranch" is a scientific term referring to sea slugs. It means "naked gills" in Greek.

⋆˚࿔How Outsiders View Galantis᭡.

Galantis, due to its closed borders, has remained in obscurity in the minds of the average people of the Spiral. There are some Galantian refugees found in MooShu, but not anywhere else.

The Armada, however, has heard rumors of Galantis's advanced technology; and wants to find a way to access the World to help set up an alliance between the Armada and Galantis.

‿︵‿🌊‿︵‿🐚‿︵‿🪼‿︵‿💿‿︵‿

Thank you for reading! I hope you enjoyed this little lore-dump of my Pirate101 World <3

Abrasion Resistance Plate

Abrasion resistance plates, often referred to as wear plates, are specialized steel components designed to withstand the severe wear and tear encountered in various industrial applications.

Abrasion resistance plates are engineered to withstand severe wear and tear from friction and impact, making them ideal for high-demand environments where durability is essential. These plates are commonly made from high-carbon steel alloys, which are heat-treated to enhance hardness and improve their resistance to abrasion. The most common grades include AR400, AR500, and AR600, each offering progressively higher levels of hardness and wear resistance. Overall, abrasion resistance plates are a critical component in industries that require robust solutions to withstand abrasive environments.

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In the construction industry, Abrasion-Proof Plate play a significant role in safeguarding machinery and infrastructure subjected to heavy loads and abrasive conditions. These plates are used in various applications, including the construction of crushers, aggregate screens, and wear liners for earth-moving equipment.

These plates are primarily used in industries such as mining, construction, and material handling, where the ability to withstand abrasive environments is crucial. For example, in mining operations, Heavy-Duty Abrasion Plate are employed in the linings of chutes, hoppers, and conveyor systems to protect the underlying steel structures from the continuous impact and friction of transported materials.

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Codex Entry: Primer on Personal Weapons of Major Galactic Races

With the galaxy being as dangerous as it is, only about 35% of it falling under the Council-set guidelines of ‘Safe’, there is a remarkable industry centered around the production of small arms. Several megacorporations and conglomerates have made their name by having at least one company dedicated to providing the galaxy and its militaries with the tools of their trade. However, due to differences in mindsets and tactical priorities, each race’s arms have taken on one or more unique traits, covered below alongside prominent companies.

Human

Human arms manufacturers, such as Beretta-Benelli Arms and Colt-Smith & Wesson Americas under Hahne-Kedar, Hanwha Defense Concern and Howa Machinery under the Ryukami Zaibatsu, or more recent companies such as Jormungandr Weapons Design, largely prize versatility and ease of modification, allowing soldiers to adapt their weaponry to the circumstances presented by their battlefields and for personal preferences. Most human-designed weapons come with multiple firing modes, if not multiple types of ammo usage patterns to fit multiple barrels. It is not a stretch to say that every Alliance soldier’s weapon is unique, no matter how small the mod might be. Some of the most iconic human-produced weapons include the Lancer line of assault rifles produced by Howa Machinery and used by the Alliance military under the designation M-7, the rectangular, blocky K19 ‘Kessler’ pistol produced by HK and issued as a sidearm, and the Frontiersman line of civilian pistols and rifles offered by C-SW.

Turian

Turian weaponry, as exemplified by offerings from Armax Arsenal, Cipritine Armory, or Palaven National Defense, emphasizes precision and reliability of use, often renowned for their durability in the field. While most turian weaponry eschews fully automatic fire, the power usually used to sustain such fire is instead channeled towards the stopping power of their individual shots, or towards modifying the ammo for unique use cases. Notable turian designs include the Cipritine Armory Phaeston, nicknamed by humans the ‘Turian AK’, the Armax Khrysae sniper rifle, which includes an explosive ‘anti-material’ setting, and the PND Joruna submachine gun, tailormade to pierce through kinetic shields, biotic barriers, and armor while retaining a compact, security team-ready design.

Salarian

Salarian designs from companies such as Aegohr Munitions, Halana Tactical Council, and Jezzela Equipment put an emphasis on modified munitions and stealth, slotting in well with the UISC military focus on covert operations, surprise attacks, and maneuver-focused warfare. Such weapons are also favored by those less scrupulous types who wish to catch their opponents off-guard, allowing for a chance to either press the attack or escape. Example weapons include the Scorpion pistol supplied by Aegohr, capable of launching delayed or remote-detonation explosives, the Seeker battle rifle, which comes fitted with a VI that conforms the trajectory of projectiles with split-second activations of ME-fields to desired locations, and the Veil sniper rifle, built to ensure completely silent, unseen usage in the field.

Asari

Asari weaponry, as designed by what few companies like Relessa Defense and Shadowtree Limited there are, are a rare sight in the wider galaxy, both due to the diplomatic nature of the asari’s culture and the emphasis placed by the Asari Military Conclave on their inherent biotic prowess. However, weapons meant to work alongside biotic-focused tactics or make up for any situations where biotics would not be wise to use are found in the possession of most asari soldiers. These weapons are usually capable of being enhanced by biotic power as well, some eschewing the typical alloy mono-block ammunition design to act as amplifiers and foci for biotic power. Examples include the Relessa Acolyte heavy pistol, designed to break through shields and armor that impede biotic attacks, the Shadowtree Tempest assault rifle that acts as the standard platform of the Military Conclave, and the Pulsar biotic focus (or BiFo), fulfilling the role of a submachine gun.

Krogan

Krogan arms are, in most krogans’ words, ‘no frills, all thrills’. Whether they are produced by what manufacturing concerns like Aralakh Weapons Foundries still exist on Tuchanka, or in dozens of ‘homebrew’ manufactories spread across the galaxy alongside their creators and clients, krogan weaponry’s main focus is on raw stopping power, coupled with explosive potential. Examples include the AWF Ogre battle rifle, a two-shot powerhouse that creates rounds almost as large as pre-Mass Effect humanity’s gunpowder-driven bullets, shell casing and all, the Hurex Offensive Claymore shotgun and Graal spike thrower, and the Rachni hand cannon, developed by AWF during the war against its inspiration as a close-in weapon for those krogan found in the press against the creatures, or having charged into close combat against them. Sniper rifles and other long-range implements are a rarity among the krogan due to being regarded as cowardly, though personalized, usually hand-crafted examples exist.

Quarian

While the quarian people, their homeworld and most of their industrial base lost in the Morning War, largely use what weapons they can acquire from human, turian, asari, and salarian sellers, there are still examples of truly quarian craftsmanship that are created on what ships in their massive Migrant Fleet have been converted into mobile manufactories. Named after the ships that they occupy, Tenkelii, Jukoris, and Zebel, companies known among the Fleet as the Triumvirate, are the last bastions of the quarian’s unique style of weaponry. Instead of using alloy mono-blocks, quarian weaponry utilizes miniature plasma generators to create ‘bolts’ of plasma contained in ME-Fields, trading penetrating power for efficacy against shields, barriers, and synthetic targets. With ship bulkheads that the quarians want to minimize the risk of a breach within, and with the geth as their ancient foe, such weaponry is truly a fitting companion to those quarians who manage to acquire one. Examples include the Tenkelii Khalgetr assault rifle, unique in modern weaponry for its ‘particle beam’ mode, Zebel’s Reegar carbine, and the Ganetka pistol produced on the Jukoris.

More than 60% of industries in Brazil’s Rio Grande do Sul suspended activities after floods

Heavy rains in Rio Grande do Sul, the southernmost state in Brazil, forced 63% of the state’s industries to partially or completely halt their activities in May and June, with 95% of interruptions lasting up to 30 days. The number of industries affected by the flooding that devastated the state is even higher: 81% said they suffered some type of loss.

The data comes from a survey conducted by the Federation of Industries of Rio Grande do Sul (FIERGS), an association that represents the sector. Among the main losses caused by floods were difficulties in logistics for the flow of production or receipt of inputs, as well as problems with workers and suppliers.

According to FIERGS, 31% of businesses reported losses in raw material stocks, 19% in machinery and equipment, another 19% in the physical facilities of the industries, and 15% in finished product stocks.

“The floods were catastrophic for Rio Grande do Sul. Besides the personal tragedy of those who lost family members and saw their homes invaded by water, the economy will also suffer an immense impact,” said FIERGS President Gilberto Porcello Petry.

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I.8.1 Is the Spanish Revolution inapplicable as a model for modern societies?

Quite the reverse. More urban workers took part in the revolution than in the countryside. So while it is true that collectivisation was extensive in rural areas, the revolution also made its mark in urban areas and in industry.

In total, the “regions most affected” by collectivisation “were Catalonia and Aragón, where about 70 per cent of the workforce was involved. The total for the whole of Republican territory was nearly 800,000 on the land and a little more than a million in industry. In Barcelona workers’ committees took over all the services, the oil monopoly, the shipping companies, heavy engineering firms such as Volcano, the Ford motor company, chemical companies, the textile industry and a host of smaller enterprises … Services such as water, gas and electricity were working under new management within hours of the storming of the Atarazanas barracks … a conversion of appropriate factories to war production meant that metallurgical concerns had started to produce armed cars by 22 July … The industrial workers of Catalonia were the most skilled in Spain … One of the most impressive feats of those early days was the resurrection of the public transport system at a time when the streets were still littered and barricaded.” Five days after the fighting had stopped, 700 tramcars rather than the usual 600, all painted in the black-and-red colours of the CNT-FAI, were operating in Barcelona. [Antony Beevor, The Spanish Civil War, pp. 91–2]

About 75% of Spanish industry was concentrated in Catalonia, the stronghold of the anarchist labour movement, and widespread collectivisation of factories took place there. As Sam Dolgoff rightly observed, this “refutes decisively the allegation that anarchist organisational principles are not applicable to industrial areas, and if at all, only in primitive agrarian societies or in isolated experimental communities.” [The Anarchist Collectives, pp. 7–8] According to Augustin Souchy:

“It is no simple matter to collectivise and place on firm foundations an industry employing almost a quarter of a million textile workers in scores of factories scattered in numerous cities. But the Barcelona syndicalist textile union accomplished this feat in a short time. It was a tremendously significant experiment. The dictatorship of the bosses was toppled, and wages, working conditions and production were determined by the workers and their elected delegates. All functionaries had to carry out the instructions of the membership and report back directly to the men on the job and union meetings. The collectivisation of the textile industry shatters once and for all the legend that the workers are incapable of administrating a great and complex corporation.” [Op. Cit., p. 94]

Moreover, Spain in the 1930s was not a backward, peasant country, as is sometimes supposed. Between 1910 and 1930, the industrial working class more than doubled to over 2,500,000. This represented just over 26% of the working population (compared to 16% twenty years previously). In 1930, only 45% of the working population were engaged in agriculture. [Ronald Fraser, The Blood of Spain, p. 38] In Catalonia alone, 200,000 workers were employed in the textile industry and 70,000 in metal-working and machinery manufacturing. This was very different than the situation in Russia at the end of World War I, where the urban working class made up only 10% of the population.

Capitalist social relations had also penetrated the rural economy by the 1930s with agriculture oriented to the world market and approximately 90% of farm land in the hands of the bourgeoisie. [Fraser, Op. Cit., p. 37] So by 1936 agriculture was predominately capitalist, with Spanish agribusiness employing large numbers of labourers who either did not own enough land to support themselves or where landless. The labour movement in the Spanish countryside in the 1930s was precisely based on this large population of rural wage-earners (the socialist UGT land workers union had 451,000 members in 1933, 40% of its total membership, for example). In Russia at the time of the revolution of 1917, agriculture mostly consisted of small farms on which peasant families worked mainly for their own subsistence, bartering or selling their surplus.

Therefore the Spanish Revolution cannot be dismissed as a product a of pre-industrial society. The urban collectivisations occurred predominately in the most heavily industrialised part of Spain and indicate that anarchist ideas are applicable to modern societies Indeed, comforting Marxist myths aside, the CNT organised most of the unionised urban working class and, internally, agricultural workers were a minority of its membership (by 1936, the CNT was making inroads in Madrid, previously a socialist stronghold while the UGT main area of growth in the 1930s was with, ironically, rural workers). The revolution in Spain was the work (mostly) of rural and urban wage labourers (joined with poor peasants) fighting a well developed capitalist system.

In summary, then, the anarchist revolution in Spain has many lessons for revolutionaries in developed capitalist countries and cannot be dismissed as a product of industrial backwardness. The main strength lay of the anarchist movement was in urban areas and, unsurprisingly, the social revolution took place in both the most heavily industrialised areas as well as on the land.

Finnish Army WW2 Light Tanks

One Of My Patron Request and Also Part Of Great Projects about Weapons and Heavy Machinery That Used During Winter War (1939-1940) & Continuation War (1941-1944) About The Finland Wars Against Soviet During during early and later Stages Of World War 2. For Your Informations Finnish Army During WW2 Heavy Machinery During Winter Wars Are Rely On Captured Soviets Tanks, Obsolete WW1 Products  Or Licensed Products From Allied Countries Disclaimer:Due Heavy Censorship Regarding Swastika Usage in Western Society, The Details of The Tanks Are Replaced With Roundel Instead of Finnish Hakaristi. However It Just A Minor Details that May Missed.

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BT-5 Light Tank The BT tanks (Russian: Быстроходный танк/БТ, romanized: Bystrokhodnyy tank, lit. "fast moving tank" or "high-speed tank") were a series of Soviet light tanks produced in large numbers between 1932 and 1941. They were lightly armoured, but reasonably well-armed for their time, and had the best mobility of all contemporary tanks. The BT tanks were known by the nickname Betka from the acronym, or its diminutive Betushka. The successor of the BT tanks was the famous T-34 medium tank, introduced in 1940, which would replace all of the Soviet fast tanks, infantry tanks, and medium tanks in service. 

This Particular Variant is BT-5: Armed larger cylindrical turret, 45 mm 20-K gun, coaxial DT machine gun. Earlier tanks used simpler fully cylindrical bolted turrets with rear bustle welded on. 

BT-42 Light Tank During the WWII, the Finnish Army utilized captured Soviet tanks as their significant armament. Among these was the BT-42 assault gun which the Finnish Army created by pairing the hull from a captured Russian BT-7 Model 1937 light tank with a British 114mm howitzer and a redesigned BT-7's large boxy turret. 18 units were produced from 1943 to 1944 and they were deployed to the Svir River region to attack the Russian bastion. In June 1944 during the Battle of Vyborg, BT-42s saw fierce combat against advancing Russian forces.

Renault FT-17 Light Tank 

The Renault FT (frequently referred to in post-World War I literature as the FT-17, FT17, or similar) was a French light tank that was among the most revolutionary and influential tank designs in history. The FT was the first production tank to have its armament within a fully rotating turret. The Renault FT's configuration (crew compartment at the front, engine compartment at the back, and main armament in a revolving turret) became and remains the standard tank layout. Consequently, some armoured warfare historians have called the Renault FT the world's first modern tank.  Over 3,000 Renault FT tanks were manufactured by French industry, most of them in 1918. After World War I, FT tanks were exported in large numbers. Copies and derivative designs were manufactured in the United States (M1917 light tank), in Italy (Fiat 3000) and in the Soviet Union (T-18 tank). The Renault FT saw combat during the interwar conflicts around the world, but was considered obsolete at the outbreak of World War II. 

This Model Armed with Puteaux SA 1918  37 mm gun While The Other , Equipped With 8mm Hotchkiss Mle 1914 Machine gun for Anti-Personnel Purpose (Not Showed in Review)

KhT-130 

KhT-130 is Flamethrower variant of model 1933 which is Variant Of Soviet T-26 Tank, The Most Successful and Most Modular Pre-WW2 Light Tanks  using a larger 45 mm gun turret (a gun was replaced with a flamethrower for Anti-Personnel Purpose).

Landsverk L-62 Anti II 

Landsverk L-62, also known as Landsverk Anti II or a combination of both, Landsverk L-62 Anti II, was a Swedish self-propelled anti-aircraft gun construction that was specifically designed for Finland by Landsverk between 1941 and 1942. 

The vehicle was an improved Landsverk L-62 Anti I where the turret and chassis had been improved for better protection. The chassis was based on the Landsverk L-60 tank but was lengthened with one extra roadwheel per side. The turret was circular and open for a better view against planes. The gun was a 40 mm Bofors L/60 anti-air gun which was already in service with the Finnish military as the 40 ItK/38.

Vickers Mark E 

The Vickers 6-ton tank or Vickers Mark E, also known as the "Six-tonner" was a British light tank designed as a private project at Vickers. It was not adopted by the British Army, but was picked up by many foreign armed forces. It was licensed by the Soviet Union as the T-26. It was also the direct predecessor of the Polish 7TP tank. 

Hotchkiss H39 Light Tank (German:PzKpfw 38H-735) 

The Hotchkiss H39 (a variant of the Hotchkiss H35) was captured and used by Germany as the PzKpfw 38H-735.

The Hotchkiss H35, or Char léger modèle 1935 H, was a French light tank developed prior to World War II. Despite having been designed from 1933 as a rather slow, but well-armored, light infantry support tank, the type was initially rejected by the French Infantry because it proved difficult to steer while driving cross-country, and was instead adopted in 1936 by the French Cavalry. In 1938, an improved version was produced with a stronger engine, the Char léger modèle 1935 H modifié 39, that from 1940 was also fitted with a longer, more powerful 37 mm gun. It was intended to make this improved variant the standard light tank, and was to be produced in a number of at least four thousand in order to equip new armored divisions of both the Cavalry and the Infantry. However, due to the defeat of France in June 1940, total production of both subtypes remained limited to about 1200 vehicles. For the remainder of the war, Germany and its allies would use captured Hotchkiss tanks in several modifications. 

Hotchkiss H39 Light Tank (German:Panzerkampfwagen 38H 735(f)) 

Variants of A Captured Hotchkiss H39 Tank by German, Outfitted with Nebelwerfer 42, A 30mm German Rockets.

Soviet T-50 

The T-50 was a light infantry tank built by the Soviet Union at the beginning of World War II. The design for this vehicle had some advanced features, but was complicated and expensive, and only a short production run of 69 tanks was completed. 

Soviet T-26 

The T-26 tank was a Soviet light infantry tank used during many conflicts of the 1930s as well as during World War II. It was a development of the British Vickers 6-Ton tank and is widely considered one of the most successful tank designs of the 1930s. It was produced in greater numbers than any other tank of the period, with more than 11,000 produced. During the 1930s, the USSR developed approximately 53 variants of the T-26, including other combat vehicles based on its chassis. Twenty-three of these were mass-produced. The T-26 was used extensively in the armies of Spain, China and Turkey. In addition, captured T-26 light tanks were used by the Finnish, German, Romanian and Hungarian armies. Though nearly obsolete by the beginning of World War II, the T-26 was the most important tank of the Spanish Civil War and played a significant role during the Battle of Lake Khasan in 1938 as well as in the Winter War in 1939-40. The T-26 was the most numerous tank in the Red Army's armored force during the German invasion of the Soviet Union in June 1941. The Soviet T-26 light tanks last saw use in August 1945, in Manchuria. The T-26 was reliable and simple to maintain, and its design was continually modernized between 1931 and 1941, with a total of 11,218 vehicles built. However, no new models of the T-26 were developed after 1940. 

Soviet T-26E 

Variant Of Soviet T-26 tank with additional armour plating (appliqué armour). Some modern sources mention this tank as T-26E (E stands for ekranirovanny or "screened"). The Factory No. 174 developed the design of 30–40 mm appliqué armour for all types of single-turreted T-26s during the Winter War. On 30 December 1939, factory tests proved that the T-26 with appliqué armour successfully resisted fire from a 45 mm anti-tank gun at a range from 400 to 500 m. Side and front armoured plates were mounted with the use of blunt bolts and electric welding. Toward the middle of February 1940, the RKKA received 27 screened T-26 mod. 1939 tanks and 27 KhT-133 flame-throwing tanks; an additional 15 T-26 mod. 1939 tanks were armoured by workshops of the 8th Army in Suoyarvi in the beginning of March 1940. All in all, 69 T-26s with appliqué armour were used during the Winter War and 20 more were delivered to tank units after the end of the war. Combat use proved that Finnish light anti-tank guns could not penetrate the armour of these tanks.

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