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beardedhideoutmilkshake · 4 months

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Understanding Photo-luminescent Paint: Benefits, Usage, and Applications

Photo-luminescent paint, often referred to as glow-in-the-dark paint, has been gaining attention in various industries due to its unique properties and wide range of applications. This paint absorbs ambient light and emits it in darkness, providing a reliable source of visibility in low-light conditions. This article delves into the benefits, usage, and specific applications of photo-luminescent paint, while also integrating relevant information about silicone sealant, construction sealant, and other related products.

What is Photo-luminescent Paint? The photoluminescent paint contains phosphorescent pigments, which have the ability to absorb light and then re-emit it slowly over time. This re-emission can last for several hours, making it an effective means of illumination in the absence of other light sources. Commonly used pigments include strontium aluminate, which offers a longer-lasting and brighter glow compared to older zinc sulfide-based pigments.

Benefits of Photoluminescent Paint

Safety and Visibility: The primary benefit of photoluminescent paint is enhanced safety. It provides a clear, visible path in emergency situations, such as power outages or fire evacuations, guiding individuals to exits and reducing panic.

Energy Efficiency: Unlike electrical lighting, photoluminescent paint does not require an external power source. It absorbs and stores light energy during the day and releases it at night, leading to energy savings and lower maintenance costs.

Durability: This paint is highly durable and can withstand harsh environmental conditions, making it suitable for both indoor and outdoor applications.

Environmental Friendliness: Photoluminescent paint is non-toxic and free from harmful substances, making it an environmentally friendly choice for various applications.

Applications of Photol-uminescent Paint

Photoluminescent paint is used in various sectors, including:

Emergency Exits and Pathways: Marking exit routes in buildings, stairways, and corridors to ensure safe egress during emergencies.

Traffic and Road Safety: Highlighting road signs, pedestrian crossings, and curbs to improve nighttime visibility.

Marine and Aviation: Ensuring clear visibility of pathways and safety signs on ships and aircraft.

Industrial Settings: Enhancing safety in factories and warehouses by marking equipment, hazards, and evacuation routes.

How to Use Photoluminescent Paint

Surface Preparation: Ensure the surface is clean, dry, and free from grease or oil. Proper preparation improves adhesion and durability.

Application: Apply the paint using a brush, roller, or spray. Multiple thin coats are recommended for optimal performance. Each coat should be allowed to dry before applying the next.

Charging: Expose the painted surface to a light source to charge the photoluminescent pigments. Natural sunlight is ideal, but artificial lighting can also be effective.

Determining the Quantity Needed

The amount of photo-luminescent paint required depends on the surface area to be covered and the desired thickness of the paint layer. As a general rule, one gallon of photoluminescent paint can cover approximately 300-400 square feet with one coat. For critical applications, consider consulting with the paint manufacturer for precise calculations based on specific product formulations.

Integration with Construction Sealants

In construction, it is often necessary to use sealants to ensure structural integrity and weatherproofing. Silicone sealant, construction sealant, and construction joint sealant are commonly used products that can complement the use of photoluminescent paint.

Silicone Sealant: Known for its flexibility and durability, silicone sealant is ideal for sealing gaps and joints in a variety of substrates. It can be used alongside photoluminescent paint to ensure that painted surfaces are also properly sealed and protected from moisture.

Construction Sealant: This term encompasses a range of sealants designed for various construction applications. When using photoluminescent paint in construction projects, it’s important to select a compatible construction sealant to ensure cohesive results.

Construction Joint Sealant: Specifically formulated for sealing joints in construction, these sealants ensure that there are no gaps that could compromise the structural integrity of a building. Using construction joint sealant in conjunction with photoluminescent paint can enhance both the safety and longevity of building components.

Importance in Construction In cities like Melbourne, where safety and efficiency are paramount, incorporating photo-luminescent paint into construction projects can significantly enhance building safety. For instance, marking pathways and emergency exits with photoluminescent paint can ensure that in case of a power outage or emergency, the occupants can safely navigate to exits. This is particularly beneficial in high-traffic commercial buildings and residential complexes.

Moreover, combining photo-luminescent paint with high-quality construction adhesive sealant can provide a comprehensive safety solution. The sealant ensures that the paint remains effective and adheres well to surfaces, even in challenging conditions.

Conclusion

Photoluminescent paint is a versatile and beneficial tool for improving safety and visibility across various applications. Its ability to provide illumination without an external power source makes it a valuable addition to emergency preparedness plans. When used in conjunction with construction sealants, it can enhance both the functionality and longevity of building projects. By understanding how to properly apply and integrate photoluminescent paint, construction professionals can ensure safer, more efficient environments.

#sealants #construction #silicone sealant #photo-luminescent paint #silicone adhesive #caulking #glow in the dark #acrylic

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starshieldpaint · 5 months

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Radiant Revelations: Innovations in Glow Paints for Walls

Introduction: In a world where creativity knows no bounds, the realm of interior design continually evolves to offer new avenues for self-expression and ambiance creation. Among these innovations, glow paint for walls stands out as a beacon of imagination, transforming ordinary surfaces into luminescent masterpieces. In this exploration, we unveil the latest advancements and inventive applications of glow paints, inviting you to embark on a journey of luminous discovery.

The Dawn of Dynamic Glow Paints: Traditional glow paints have long captivated audiences with their ethereal glow-in-the-dark properties. However, recent advancements in technology have propelled glow paints into a new era of dynamism and versatility. Today, manufacturers harness cutting-edge formulations and innovative techniques to imbue glow paints with enhanced brightness, durability, and even interactive features.

Introducing Dynamic Glow Paints:

Photoluminescent Paint: Unlike traditional glow paints, photoluminescent paint harnesses the power of ambient light sources to emit a radiant glow. These paints contain photoluminescent pigments that absorb and store light energy during the day, releasing it as a soft, ambient glow in low-light conditions. Perfect for eco-conscious consumers, photoluminescent paints offer a sustainable and energy-efficient alternative to traditional glow paints.

Temperature-Activated Glow Paint: Imagine walls that change color and intensity based on temperature fluctuations. Temperature-activated glow paints utilize thermochromic pigments that respond to changes in temperature, resulting in mesmerizing color transformations. From subtle shifts in hue to dramatic bursts of fluorescence, these paints create an ever-changing visual experience that adds intrigue and excitement to any space.

Glow-in-the-Dark Murals: Elevating wall art to new heights, glow-in-the-dark murals combine artistic expression with luminous enchantment. Talented muralists and graffiti artists leverage glow paints to craft captivating scenes that come to life under the cover of darkness. Whether depicting cosmic vistas, underwater realms, or fantastical landscapes, these murals captivate viewers and ignite the imagination.

Interactive Glow Walls: Blurring the line between art and technology, interactive glow walls offer an immersive sensory experience like no other. By integrating sensors, LED lights, and responsive coatings, these walls react to touch, sound, or movement, creating an interactive spectacle that engages and delights visitors. From interactive installations in museums to dynamic displays in commercial spaces, the possibilities are limited only by the imagination.

Embracing the Glow Revolution: As we embrace these innovations in glow paints for walls, we unlock a world of limitless creativity and expression. Whether adorning a child’s bedroom with a celestial dreamscape or transforming a nightclub into an otherworldly wonderland, dynamic glow paints redefine the boundaries of interior design. With each brushstroke, we illuminate not only our surroundings but also our imagination, inviting others to join us on a journey of radiant discovery.

Conclusion: As the world of interior design continues to evolve, glow paints for walls stand at the forefront of innovation and creativity. From photoluminescent paints that harness the power of light to temperature-activated pigments that respond to their environment, these dynamic paints offer endless possibilities for self-expression and ambiance creation. So, dare to dream in luminescent hues, and let your walls become a canvas for radiant revelations.

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marketrendsposts · 1 year

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Water based of Photoluminescent powders held the largest share in the of Photoluminescent Powders Market in 2019 as it is used in Photoluminescent paint. Photoluminescent paints, also known as glow in the dark paints, contain a photoluminescent powder that charges in the sunlight and can glow in the dark for up to several hours. These paints are prepared as a combination of resins and pigments. Photoluminescent paints can be used for a range of applications such as on roads, highways, expressways, ducts and bridges. The most commonly used pigment type in photoluminescent paints is strontium aluminate or zinc sulfide. The particle size of the pigment also plays a crucial role in the duration of the glow. The larger the particle size, the longer the luminesce, as compared to smaller-sized particles. The basic mechanism of photoluminescent paints involves the emission of light in the dark through the energy stored from ultraviolet radiations. Paints are extensively used in the architectural sector for both exterior and interior applications. The paints and coatings industry is undergoing a period of significant consolidation to promote development, boost efficiencies and obtain greater returns from consumers. Consumers and socio-ecological problems play a major part in shaping the paints and coatings sector. Sustainability is emerging as a critical factor during input selection, leading to inclusion of renewable raw materials, new eco-friendly technologies, and responsible manufacturing practices. This factor will drive the growth of the market in the forecast period.

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technicallyfadingdreamer · 3 years

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PHOTOLUMINESCENT POWDER INTRODUCTION

Photoluminescent powder, also known as pigment, is a non-toxic, non-radioactive new environmentally friendly alkaline earth aluminate pigment. Most of the visible or UV light will charge the pigment particles (excitation). The photo luminescent pigment then releases energy for 10 to 24 hours in the form of visible light (which glows in the dark). The photographic light-emitting pigments provide duty-cycle operation with a very high ratio of glow time to the desired charging time. Luminous intensity (brightness) and afterglow time than the traditional ZnS (zinc sulfide) or usually sold retail store products more than 30 times higher.

Photoluminescent Powder Characteristics

Safe for normal uses as it contains no radioactive or toxic materials.

Long glow time. Compared with previous photo storage materials, it has up to 50 times longer emission (glow) time.

High initial brilliance. Initial luminance of up to 40,000 mcd/m2.

High durability. Long shelf life if the crystalline structure is not damaged.

Outdoor usage. Suitable for outdoor usage as it does not suffer luminance reduction even when placed under a 300-watt high-pressure mercury lamp for 1000 hours.

Stable Chemical Reaction. Not-encapsulated powder is stable as it is resistant to most anhydrous chemicals, both organic and inorganic. However, it will decompose into metal oxide and lose its luminance when brought into contact with water. Waterproof powder should be used for high water content mediums such as kids water paint. Most resin, epoxy, silicone and acrylic paints can be used with our not-encapsulated pigment and brighter pigment.

Temperature Resistance:

High Temperatures. The performance and brilliance remain stable under temperature of nearly 1100 degrees Fahrenheit (600℃).

No decrease in performance even when tested at temperatures of -40 degrees Fahrenheit (-40℃). High durability.

How bright are these glow products?

Many photoluminescent pigments and products manufacturers refer to the extinction time of their products, which is defined as the time required for afterglow to be reduced to 1 masb (0.032 mcd / m2, or about 100 times the human perception limit). In practice, it is very difficult, unless your eyes are completely dark to adapt, and you are in a completely dark environment. For practical purposes, the brightness of one to two millimeters per square meter is a more appropriate limit for life safety applications, even if a smoke-free environment is assumed. Therefore, the zinc sulfide product may take 30 to 45 minutes after its excitation source is extinguished. On the other hand, the afterglow of strontium aluminate products can be seen for days or even longer. All PhotoLuminescent Powder are based on strontium aluminate. At the other end of the time scale, strontium aluminate products can provide surprising initial afterglow. For example, four inches of square material from the magazine page can provide enough light, at least in the first minute. In addition, the microprism retroreflector and other brightness enhancement techniques can increase the brightness of the material several times.

Are Photoluminescent Exit and Egress Signs OSHA Compliant?

Most people can figure out how to exit a building in normal circumstances. But add fear and an emergency, and normal tasks suddenly become difficult. Darkness after losing power and a fire’s smoke make everything worse. This is why it’s so essential to make egress—the act of escaping a building—simple and easy. And glow in the dark exit signs that are approved by OSHA are one way of lighting the way to safety.

In this article, we look at the requirements from OSHA, NFPA, and the IBC for the listing and performance of photoluminescent signs. These mandates include the need for proper light sources, glow duration, and legibility from a distance.

Feel free to skip to the sections on:

The basics of photoluminescent exit signs and egress markers

Listing requirements from IBC, NFPA 101, and others for photoluminescent signs

Are photoluminescent signs OSHA-compliant?

Installing, inspecting, and testing photoluminescent safety signs

The basics of photoluminescent exit signs and egress markers

Effective means of egress are described and regulated by multiple model building and safety codes. The National Fire Protection Association’s NFPA 101: Life Safety Code (2018 edition) is one key document. Another is the International Building Code (IBC, 2018 edition), which has been incorporated into the building codes of every U.S. state.

Proper signage is a key part of emergency preparedness, which is why you see light-up “EXIT” signs everywhere. Smaller egress markers, which often have arrows indicating direction and pictographs of a running man, are also common. These give directions in confusing parts of a building or where exit signs are far apart. All signs have to work well in the dark and without main power, so NFPA 101 and IBC both have specific requirements for backup illumination.

Photoluminescent signs (aka “glow-in-the-dark signs”) are a useful technology for exit and egress signage. They glow without a dedicated power source. Instead, they absorb the energy of light from normally well-lit surroundings—often a particular wavelength of light—and release it over time as a glow. The brightness of their glow diminishes after the charging light source is removed, but glow in the dark signs that are NFPA-, IBC-, and OSHA-compliant remain visible long enough to get people to safety.

Photoluminescent signs can be used as egress markers and exit signs as long as they meet the necessary performance standards. Indeed, many egress markers (being smaller and more common than exit signs) must be self-luminescent—electric illumination won’t do.

PVC Signage

Let’s be clear and as non-technical as possible in the description of PVC signs. The chemicals and the molecular makeup are the same as the pipe referred to in the opening of this article. The best way to help in differentiating the two as that the signs are more lightweight and porous, meaning full of pores. How does this translate to what you want to know? With all those tiny little pores in a PVC sign, it means it will accept liquids. In your case, it means they can accept ink, and thus we can create graphics on the sign you want for your company.

PVC signs have a matte finish, which means it eliminates glare or reflection. It makes your graphics easier to read. If you really feel you want a shinier gloss finish, we can do a decal print and affix it to your sign.

Brushed aluminium signs

If you’re looking for long-lasting outdoor signs, brushed aluminium material may be just what you need. They’re strong but lightweight and are quite durable. They can be cut to any shape or size and is quite popular due to their resistance to bending and water. What’s more, brushed aluminium signed to give your designs a stunning silver metallic finish.

This type of material is great for both indoor and outdoor advertisements, as well as decorative pieces. It is often the preferred option for wayfinding signs, making them perfect for offices, waiting rooms, or reception areas.

Painted aluminium signs

These are the same as brushed aluminium signs, except they have a smooth, painted finish. These are made from two synthetic plates with a hard di-bond door. They are extremely sturdy, yet surprisingly lightweight.

We suggest using this material when designing a panel for a sale or special offer. Just like brushed aluminium, this material is water-resistant and difficult to bend. This makes it perfect for outdoor promotion.

When you’re designing a custom interior sign, you have several options for materials, including plastic, wood, glass, and a handful of metals. Ideally, you’ll choose a material that best reflects your brand or the message of your sign. If that material is stainless steel, you’re in luck. Stainless steel signs signal strength and industriousness to your clients. If your business is about offering protection, stability, or innovation, stainless steel can help communicate that to customers. Plus, it offers five other excellent advantages we’ll detail below.

1. Eye-Catching Shine

Stainless steel is a highly reflective metal that gives off a pleasant shine. It helps catch people’s attention, especially when it is also the focal point of a room, as a lobby sign or other custom interior sign should be. If you use stainless steel for an outdoor sign, a sunny day will charmingly light it up.

2. Longevity

As stainless steel is rust and corrosion resistant you can use it for both outdoor and indoor signs. You can expect a long life out of these signs, as long as you occasionally maintain them. When you need to invest in a permanent sign that will broadcast your brand for the long-haul, choose stainless steel.

3. Cost-Effective Metal

Stainless steel is quite cost effective as a sign material, especially as compared to other metals. Bronze, gold and copper, or fake versions of these metals, can be more expensive. With a stainless steel sign, you get the benefits of metal without the disadvantages.

4. Completely Customizable

Many custom indoor signs need to be just that, very custom. If you’re thinking of an unusual shape, unique font or another uncommon design choice, stainless steel can be manufactured to fit your unique vision exactly.

5. Just Add a Bit of Steel

You don’t need to make a whole sign out of stainless steel. This material is a “neutral” that can be combined with several other materials to great effect. Consider adding stainless steel lettering on a plastic sign or combining wood and stainless steel for an industrial look. There are many other possible combinations that can work for your brand.

Ready to Try A Stainless Steel Sign?

At Captivating Signs, we can help you bring out the best in stainless steel in your sign design. We create all kinds of custom interior signs that help your brand shine with strength. Reach out to us today.

AESTHETIC

Acrylic signs are eye-catching yet subtle and tasteful. They are ideal for companies who are looking to add signage to their office which is both practical and aesthetically pleasing. It’s even possible to “float” the letters of the sign to create an attractive 3D effect.

DURABILITY

One practical reason why many people use acrylic signs is that they are very durable and need little maintenance. They can withstand any weather condition including snow, rain, hail high winds and temperatures.

CUSTOMIZABLE

Although an acrylic sign includes a relatively simple and straightforward design, there is still room for a high level of customization. The plate itself can be frosted, clear or even a solid colour. The design can include a simple name in a wide range of colours, or even logo designs.

BRANDING

Acrylic signs offer an excellent opportunity to improve the branding and brand visibility of your company. Acrylic signs allow for simplicity, which means you are free to use whichever typography or imagery necessary to communicate your brand.

PROFESSIONAL

We offer a variety of different signage solutions, but when it comes to combining visibility and professionalism, acrylic signs are the best solution and reflect the class of your company. Most signage is appropriate for B2C, but acrylic signage is primarily for B2B companies.

ACRYLIC SIGNS AT WARWICK SIGNS

At Warwick Signs we offer competitively-priced and professional acrylic signs.

What is Resin Stone?

Resin stones are made by taking shards of stone, binding them with a strong adhesive and molding them in with a special resin. The resulting mixture is then capped with acrylic or other coatings to ensure that the surface and core is protected and scratch resistant. And, because it is made from resin, the material is much lighter than normal stone without losing it’s durability.

What common items are made from Resin Stone?

Stone resin can be formed to make a number of common home items such as tile for flooring, bathtubs, sinks, showers, garden stones and even some jewelry as well.

What are the benefits of Resin Stone?

In addition to being lightweight and affordable, there is a reason this material has a bit of an edge when compared to other commonplace bathtub materials such as acrylic, fiberglass, porcelain and cast iron. The material will not warp overtime unlike fiberglass and acrylic, nor will it break, shatter or chip due to heavy impacts from accidental drops or falls like porcelain will and, as stated before, the material is as durable as cast iron with being four times lighter than it. It is non-porous, meaning it will not absorb water unlike fiberglass and acrylic, which means the structural integrity of it will never change, it also has excellent heat retention on par with higher end materials like enameled steel and copper. And lastly, stone resin is very eco-friendly, made from recycled materials with an entirely green production model. With the added benefit of being a durable material, it will also not create waste as stone resin bathtubs will last several lifetimes.

How to clean and maintain Resin Stone

Surprisingly, stone resin is also quite easy to maintain and clean, as most stains or dirt can be washed away with water and can also be polished easily as well. Simply use a soap based solution or any non-abrasive cleaners to remove any buildup or stains down the line. Avoid using acidic based cleaners or abrasive cleaners as it will damage and remove the finish over time.

How long does Resin Stone last with good maintenance?

With good care and proper maintenance, stone resin can last a lifetime easily.

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aliworldtrade · 3 years

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Dalian Lightleader Technology Co., Ltd.

86-411-84516155 86-15714114570

2201, 19 Shida Street, Dalian, Liaoning, China

Dalian Lightleader Technology Co., Ltd. is dedicated in R&D, manufacture and marketing of new type photoluminescent products. LightLeader has given priority to the traditional Zinc Sulfide base photoluminescent pigment. We start to produce the new type of Strontium Aluminates-Silicates base photoluminescent pigment with a view to the technology revolution and environment protection. With a head office in Dalian China and with offices and agents throughout the world, Lightleader is destined to become a world leader in providing top quality photoluminescent products. Besides photoluminescent pigment, we have successfully developed more and more photoluminescent products made by this kind of material recently. All Lightlead products-photoluminescent pigment, photoluminescent film, phosphorescent plastic, glow yarns, glow stones, photoluminescent signs, phosphorescent ceramic, luminous threads, fluoresecent glass, glow in the dark ropes, flourescent paint, photoluminescent safety products, etc. have been exported to more than 30 countries and regions. Some of Lightlead products have attained the patents from the State Intellectual Property Office of China.

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iglowtechnologystuff · 4 years

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How to make glow in the dark screen printing?

Photoluminescent pigment or glow in the dark powder is strontium aluminate long afterglow luminous powder. It can absorb light energy for 5-20 minutes under sunlight or lamp, then store it in the crystal lattice. In a dark environment, it emits an afterglow for 8-10 hours. Moreover, the afterglow lasts more than 70 hours for the luminous intensity decays to the lower limit of human eye observation (0.32mcd/m2). This material's chemical properties are stable; the process of light absorption, storage, and glow can repeat for unlimited times. The life span is more than 20 years. It is non-toxic, eliminates repetition, and produces no harmful substances during the production process.

The glow in the dark powder can be added into the screen printing technology for many different applications to enhance artistic and safety performance, such as the pattern on the mugs, the signs on the signage, and the design on the clothes.

However, how to choose the right type of luminous powder, which kind of printing paste to apply, what to do to reach the best glow effect? These technical problems sometimes are challenging to solve. Today, we will talk about these issues from different aspects.

1.Printing Ink:

Ø The ink used in luminous printing is a glow in the dark containing photoluminescence pigment, organic resins, organic solvents, and additives in a particular proportion through a unique process.

Ø The higher the transparency of the ink, the better the glow effect. To protect the glow pigment's brightness, it should add into neutral or weakly alkaline transparent resin.

Ø The viscosity of the processed luminescent ink is about 300-500mPa.S. When printing, the printing speed should be slow, and the ink viscosity should be adjusted with the thinner to meet the printing requirements. Choose high-viscosity resin, and add an anti-settling agent to prevent precipitation.

Ø According to different printing materials, choose different types of transparent ink, such as select metal-specific inks for printing on metal materials, and page on PVC materials, choose PVC-specific inks for better firmness.

Ø Because the particle size of the luminous powder used for screen printing is usually more significant than that of ordinary color pigments, a more robust binder is needed to fix the color. Especially when it applies to the screen printing of glow clothes, if the adhesive quality is insufficient, the uniforms will quickly lose their glow effect after washing many times.

2.Glow In The Dark Pigment:

Ø When screen printing, the choice of luminous powder is critical. The particle size of the glow powder depends on the mesh's size, and it must be smaller than the size of the mesh. If the luminous powder is too big, the mesh will be blocked and cannot be printed, which will affect the printing effect.

Here is an example, if the size of the mesh is 200 mesh, then the 250-400mesh luminous powder is recommended. Because the glow powder's size is an average value, 200 mesh glow powder, the average particle size is between 50-60micron, but the maximum particle size may exceed 60micron. During screen printing, the bigger particle size will block the mesh.

When making signs and print clothes patterns, the screens used are generally 80 mesh and 120 mesh. Do not use very fine meshes; otherwise, the luminous powder cannot pass through the mesh, and the product brightness is not excellent.

Ø In the water-based ink uses water-proof glow powder. The luminous powder itself is not water-proof; it will hydrolyze in contact with water, become oxidized after a long time, and change into a white powder raw materials, and losing the luminous effect.

Ø The adding ratio of luminous powder: generally 30%-50% of the total weight, the amount of glow pigment is determined according to the printed objects' brightness requirements. The higher the pigment content, the higher the luminous brightness of the products printed with it, and the longer the afterglow time.

3.Others:

Ø When making screen printing, it is best to make luminous ink on a white background and use the bottom layer's reflective effect to improve the luminous brightness and the afterglow time of the glow pattern or logo. If the background color is not white or light, then print a white background color on the base surface.

If the brightness of the white fabric luminescent printing is 100, the dark fabric printing's brightness will be below 80. The main reason is that white or light-colored fabrics have a more durable light reflection effect than dark-colored fabrics, and dark colors will absorb some light from luminescent materials.

Ø When performing luminous screen printing, it is best not to add other colors of pigment. Other pigments will cover the glow pigments, prevent them from absorbing and emitting light, and affect the luminous effect. If adding other dye, it recommends adding fluorescent colors, which will reduce the impact on brightness.

Ø Adjusting the viscosity of the glow in the dark printing paste, to control the minimum film thickness of the luminescent layer on fabrics, and a reasonable printing film thickness should be no less than 100 microns, preferably about 130 microns. For this reason, use a thick plate rubber to ensure the thickness of the film and achieve the best luminous effect.

To having a super-brightness printing effect, choose a professional manufacturer of long afterglow luminous powder to ensure the quality and get some professional technical support.

#glow in the dark #screen printing

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lynettemurrayhair · 4 years

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Not just your average purple hair bath*

Okay, let’s chat purple shampoo*. Some of the most common statements and questions I come up against are -

You can buy it in the pound shop so what’s the difference, surely they all do the same thing?

Why did my hair go purple and patchy in places when I used it?

Why did it dry my hair out?

There are many other hair companies out there offering purple shampoo* but to me because the active ingredients aren’t to the highest quality this can unfortunately be one of the many reasons your hair ends up feeling dry and unloved. Nobody wants unloved dry patchy purple hair, do they? NO! No they don’t.

This is where HBlonde hair bath* comes storming in and slaps us in the face (hehehehe) I promise you it is not just your average everyday purple shampoo*. Not only is it sulphate and paraben free, but check out what else it DOESN’T contain-

SLS & SLES / PARABEN / PETROLATUM / PEG, PPG & BG / EDTA /SYNTHETIC FRAGRANCE /GMO / PHTHALATE

AND it rebuilds your hair from the inside out!. LIKE WHAT?! Mind blown!

It doesn’t leave you with patchy purple sections, it doesn’t dry your hair out. It’s basically a miracle hair solution all wrapped up and lovingly poured into an amber glass bottle. If you’ve natural grey or blonde hair or your hair is dyed/bleached blonde hair then this is the product for you. With its anti-yellow and illuminating properties that include biodynamic dock, organic mullein and ethical date, I promise you, it will blow your mind!

So for all you ingredient lovers out there, here’s a list of the active ingredients in OWay’s new HBlonde HairBath*

Ultraviolet Neutralising Agents // Latest-generation pigments that contrast the yellow and orange tones in blonde and grey hair. They improve shine and purity in blonde hair.

Biodynamic Dock // its content of iron, magnesium, potassium and calcium remineralises hair fibre, while vitamins A and C offer energy and antioxidant protection. Dock is grown using the biodynamic method, the purest farming technique, which completely excludes the use of pesticides and synthetic fertilisers.

Ethical Date Oil // Rich in saponins, it has moisturising and restorative qualities. It nourishes, restores hair elasticity and delivers lasting improvement to the structure of the hair fibre. Thanks to the presence of flavonoids, it has an antioxidant action that helps fight cellular ageing. Protects against the aggression of external agents.

Phytocomplex Based On Organic Mullein // An active techno-botanical active ingredient with extraordinary illuminating power. Mullein uses the principle of photoluminescence, and transforms invisible UV rays to add extraordinary shine to your hair. Mullein extract increases hair brilliance progressively, treatment after treatment. It protects against photo-oxidative stress due to UV rays. It makes hair look younger and healthier.

This hair bath* is designed to rebuild your hair from the inside out! It repairs the hairs elasticity while toning and neutralising any unwanted yellow tones and will make your hair feel and look like a million dollars! I’m literally in love with it!

Action

Ideal for natural blonde, bleached, grey and white hair

Rich in ultra-violet pigments that immediately contrast unwanted yellow and orange tones

It eliminates impurities and pollutants biodynamic dock re-mineralises and protects the hair against oxidation

The phytocomplex based on organic mullein which gives incredible brightness

Ethical date oil restores, nourishes and gives elasticity to hair fibre

The HBlonde hair bath* retails at £32. It is a reconstructing, biodynamic toning bath. Worth every penny, I promise. Plus it is refillable so you get 25% off when you bring it back into the studio to avail of the refill station - everyones winning - whoo hoo -

Love Always and Always Love xo

#purple shampoo #oway #organic #haircare #ethically sourced

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trendingnewz-blog · 5 years

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Global Phosphorescent Pigments Market: Leading Players to Focus on R&D Activities 2025

Phosphorescence is a type of photoluminescence. Phosphorescent pigments crystal absorbs the radiations falling on them and thus e-emit the radiation it absorbs. The main characteristics of the phosphorescent pigments is the particular structure of its crystal with the strong capacity of absorbing-storing-emitting light. After absorbing varieties of visible lights, it can glow for more than twelve hours in the dark. Due to this property of glowing, they are also referred to as the glow-in-dark pigments. Phosphorescent pigment are used for many very different technical and artistic purposes due to its characteristics. It can be used in manufacturing paint; ink; plastic; rubber and films etc. It is completely safe for the application in consumer products such as clothing; shoes; caps; toys; stationery goods; watch; switch; novelties; fishing tools and sporting goods. It has good effects in the fields of building; decoration; traffic vehicle; military installations; fire emergency system. It is especially suitable for the production of long afterglow safety products such as warning; mandatory and escape-route signs.

Read Report Overview @

https://www.transparencymarketresearch.com/phosphorescent-pigments-market.html

Paints and Coatings Make One of the Leading Shareholding Segments Based on Application

On the basis of the products, phosphorescent pigments are classified according to the Zinc Sulphide and Strontium Aluminate. Strontium Aluminate is a class of newly developed phosphorescent (glow-in-the-dark) pigments which are based on Strontium Oxide Aluminate Chemistry. They are drastically different from conventional phosphorescent pigments which are either based on Zinc Sulfide or on radioisotopes for their self-luminous properties. Strontium aluminate can emit the light for about 12 hours which is not the case with the zinc sulphide. Strontium aluminate phosphorescent pigments are higher in prices than the zinc sulphide phosphorescent pigments. Strontium aluminate is doped with the Europium or Dysprosium so as to enhance the brightness and the duration of the glow. Zinc sulphide is the traditional phosphorescent pigment which is doped with copper to enhance the properties.

Based on the applications, paints and coatings is amongst the largest shareholding segments. Paints and coatings are then followed by the plastics industry. Phosphorescent pigments are used as fishing lures, glow in dark toys, paints, concrete, carpets, light-switches, handrails, stair well markers, luminaire reflectors, high visibility jackets, hard hats, directional indicators, arrows, highlighting signs for the position of fire extinguishers and especially the internationally standardized phosphorescent safety signs are nowadays widely in use. The main application of all kinds of well-defined phosphorescent safety products are egress pass marking purposes as of high rise buildings, of public buildings, railway stations, underground trains, passenger ships, underground parking areas and areas with high foot traffic.

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Asia Pacific Reports High Consumption, with China Accounting for Nearly Half of Regional Market

In terms of consumption, Asia Pacific was the largest market for Phosphorescent Pigments in 2016, China alone contributes to more than 50% of the Asia Pacific Phosphorescent Pigments market. The Phosphorescent Pigments market in Asia Pacific is very fragmented as most of the production is done by small scale manufacturers. Asia Pacific produces and exports Phosphorescent Pigments due to high availability of raw materials, developed technologies; and cheap labor. Europe is also a substantial market for Phosphorescent Pigments market, the region consumes more than 1/5th of the total volume of the global Phosphorescent Pigments market. Europe and North America have strong and developed construction industry thus the demand for Phosphorescent Pigments is anticipated to increase over the forecast period.

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priyanka16me · 5 years

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Phosphorescent Pigments Market to Register Substantial Expansion by 2025

Thanks to the presence of a significantly large pool of established players, the global phosphorescent pigments market is demonstrating a highly fragmented and competitive business landscape, finds Transparency Market Research (TMR) in a new report. The leading vendors of phosphorescent pigments, namely, GloTech International, Honeywell International, LuminoChem, Nemoto Lumi-Materials, Kremer Pigmente, Badger Color Concentrates, and Allureglow International, are focusing substantially on R&D activities in the field of phosphorescent pigments in an effort to overshadow their rivals. These enterprises are also projected to focus on regional expansion to strengthen their presence over the next few years, states the research report.

As per TMR’s projections, the opportunity in the worldwide phosphorescent pigments market, which was worth US$500.4 mn in 2016, is anticipated to expand at a CAGR of 4.70% during the period from 2017 to 2025 and touch the mark of US$753.2 mn by the end of the period of the forecast. Strontium aluminate and zinc sulphide are the two main products available in this market. The price of strontium aluminate is much higher than zinc sulphide pigments. Regionally, the market is segmented into the Middle East and Africa, Asia Pacific, North America, Europe, and Latin America. Among these, Asia Pacific has surfaced as the key contributor to the global market. Researchers at TMR anticipate this scenario to remain so over the forth coming years. Europe is also projected to report significant rise in its market for phosphorescent pigments in the near future, notes the research study.

Widening Application Base of Phosphorescent Pigments to Support Market’s Growth

“The rising utilization of phosphorescent pigments in a number of end users, such as the writing and printing inks, watch and clock dials, home appliances, home appliances, electronic instruments and dial pads, fabrics, camping equipment, signboards, and the switches and lighting apparatus industries, is the key factor behind this noticeable growth of the global market for phosphorescent pigments,” says a TMR analyst. Apart from this, the rising applications of these pigments in a number of consumer products, such as printing on toys, footwear, and textiles, is also propelling this market considerably.

Over the forthcoming years, the increasing usage of phosphorescent pigments as additive to plastics in order to enhance the aesthetic appearance of plastic products is likely to support the worldwide market for phosphorescent pigments, states the market report.

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Advent of Fluorescent Pigments as Substitutes to Hamper Progress

On the other hand, the rising preference for fluorescent pigments, readily emitting light as absorbed from the ambient radiation, in the photoluminescence sector may hamper the growth of the phosphorescent pigments market across the world. Since the light emitted by fluorescent pigments has an elongated wavelength, it is lower on energy than the absorbed radiation.

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priyanka25universe-blog · 6 years

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Phosphorescent Pigments Market to Witness Comprehensive Growth by 2025

Widening Application Base of Phosphorescent Pigments to Support Market’s Growth

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Advent of Fluorescent Pigments as Substitutes to Hamper Progress

As phosphorescent materials do not re-emit the absorbed radiation immediately, this factor may hinder the growth of this market in the years to come, states the research report.

About Us

Transparency Market Research (TMR) is a global market intelligence company providing business information reports and services. The company’s exclusive blend of quantitative forecasting and trend analysis provides forward-looking insight for thousands of decision makers. TMR’s experienced team of analysts, researchers, and consultants use proprietary data sources and various tools and techniques to gather and analyze information.

TMR’s data repository is continuously updated and revised by a team of research experts so that it always reflects the latest trends and information. With extensive research and analysis capabilities, Transparency Market Research employs rigorous primary and secondary research techniques to develop distinctive data sets and research material for business reports.

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daisyri-me · 7 years

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Photoluminescent Products Market Size To Grow at a CAGR Of 3.31% By 2021 : Radiant Insights,Inc

Photoluminescent materials consist of inorganic chemical compounds, which are referred to as photoluminescent pigments, and are encased in flexible or rigid strata, or dispersed in a liquid form, such as paint. Photoluminescent pigments consist of crystals of aggregated elements and other agents. The crystals undergo certain changes when they are exposed to light. Furthermore, these crystals have the ability to store light photons, becoming luminescent over time. After the crystals are charged, they will remain excited and continue to emit light even after the light source is removed. Over time, the energy stored in the crystals will continuously dissipate until its complete depletion; the material can be recharged by re-exposure to light.

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Covered in this report

The report covers the present scenario and the growth prospects of the global photoluminescent products market for 2017-2021. To calculate the market size, the report considers the the demand for photoluminescent products.

The market is divided into the following segments based on geography:

Americas

APAC

EMEA

Global Photoluminescent Products Market 2017-2021, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the market landscape and its growth prospects over the coming years. The report also includes a discussion of the key vendors operating in this market.

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Key vendors

American Permalight

Jessup Manufacturing Company

GLOTECH, Glowway

Soluciones Luminiscentes

Other prominent vendors

Ecoglo International

EverGlow

Jalite

Wooster Products

Market driver

Augmented infrastructural development in APAC

For a full, detailed list, view our report

Market challenge

Lack of product differentiation leading to threat of rivalry

For a full, detailed list, view our report

Market trend

Increasing application in aviation industry

For a full, detailed list, view our report

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About Radiant Insights,Inc

Radiant Insights is a platform for companies looking to meet their market research and business intelligence requirements. We assist and facilitate organizations and individuals procure market research reports, helping them in the decision making process. We have a comprehensive collection of reports, covering over 40 key industries and a host of micro markets. In addition to over extensive database of reports, our experienced research coordinators also offer a host of ancillary services such as, research partnerships/ tie-ups and customized research solutions.

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nofomoartworld · 7 years

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Hand-Knit Paintings Weave DNA into Algorithms

You may not think knitting, quantum physics, and human DNA have much in common, but they have in the work of LA-based artist Channing Hansen. Hansen has an upcoming solo show at London's Stephen Friedman Gallery which will feature his woven and mesh-like algorithmically designed canvases, which he hand-knits himself.

Hansen, who is the brother of musician Beck, is also heavily involved in the sourcing and production of the yarn he uses in his artworks. The handspun fiber comes from breeds of sheep, "conservation breeds," that are endangered by monoculture and factory farming. The artist often also shears the sheep himself, then skirts, washes, dyes, blends, and spins the wool he uses.

This handcrafted, folk element is complemented and juxtaposed with techniques involving contemporary science and technology. For his new show, Hansen has based the designs of these "knitted paintings" on his own DNA. This is used to generate an algorithmic program he wrote in Python. Hansen notes that this then acts like a Fluxus score in that the performance-ready script can guide him as he knits, informing changes in color, fiber blend, stitch, pattern, even whether to make a mistake.

Channing Hansen, K²:JA:04, 2015. Image courtesy: the artist

"I am interested in the idea that humans themselves embody an infinite number of potential algorithms," Hansen tells Creators. "We are essentially data-processing machines that possess consciousness. 99% of the DNA humans possess is shared; what differentiates each of us and gives us our unique traits is known as single-nucleotide polymorphism, or SNP for short. I used my own SNP (pronounced 'snip') as a seed for the algorithm on which each work is structured; I identified twenty-three variables that were then put through a random function to generate the set of instructions that I followed when knitting."

For the new show Hansen also developed custom dyes using a spectrometer in a collaboration with his friend Betsy Pugal, a Planetary Protection Officer at NASA. "I am partially colorblind, so am keenly aware that color is subjective, no two people see the same color," he says. "Scientifically, 'red' doesn't mean anything, but the wavelength of 623nm does."

As a result of this collaboration, the fibers of the yarn used in the new show have been treated with a photoluminescent pigment, which gives them a fluorescent appearance.

The artist explains that he first got into knitting after wanting to keep his restless hands busy when away from his studio. He'd been working with performance art and sculpture, then began to use knitting itself an art form, understanding how it was connected to drawing, painting, and kinetic sculpture.

Channing Hansen, Fluid Dynamics, 2017. Image courtesy: the artist

Along with Fluxus (Hansen's grandfather was artist Al Hansen, a member of the Fluxus movement), the artist also cites many other artists who have worked with yarn and tapestries as inspirations and influences for his knitted pieces. "While Robert Rauschenberg's Combines are often credited with breaking beyond the picture plane into the three-dimensional field of sculpture, creating a sense of continuity between 2D and 3D, the wall-hung weavings and tapestries of artists such as Magdalena Abakanowicz, Olga de Amaral, Sheila Hicks, and Ritzi and Peter Jacobi also explored similar territory using fiber," notes Hansen. "Recognizing yarn's capacity to denote a line, a plane, or a volume also has precedents in the work of artists such as Elsi Giauque and Fred Sandback."

This sense of knitting shifting in terms of its definition as a medium also plays into Hansen's interest in quantum physics. For Hansen his knitted artworks are in a quantum-like state of uncertainty—being drawings, paintings, and sculpture. It's only when the audience sees the pieces that they become defined as one or the other.

Channing Hansen, 42, 2014. Image courtesy: the artist

"In my stretched knitted works, I leave the frame at least partly visible through the knits, suggesting a physical continuum in which a work of art exists in two, three, and even four dimensions," notes Hansen. "Each dimension existing as the shadow of the next. In this way, what might look like a painting is actually a portal—flexible, functional, provisional—with the knitted fields being far less measurable to the observer than the more obviously defined frame that they are stretched around. What is framed is essentially a question."

Hansen further elaborates, noting how in the quantum realm electrons and photons can exist in different quantum states and different locations (their wave function), seemingly at the same time.

"This situation is known as quantum superposition," Hansen explains. "It is the act of measuring said particles that collapses its 'wave function' or all of the possibilities and probabilities, into one state or another. In other words, by bringing consciousness into the equation, we create the universe around us. So in this way, I see my works in superposition between paintings, drawing, and sculptures. It is when someone brings their consciousness to bear on the perception of my works that its uncertainty becomes certain and it becomes, for them, a painting, a drawing, or a sculpture. It's a kind of decoherence where my work shifts from a quantum state to a classical one."

Channing Hansen knitting. Photo credit: Joshua White

Channing Hansen's solo show opens at Stephen Friedman Gallery, Old Burlington St, London W1S 3AN on June 8, and runs through July 29, 2017.

"Knitted" Glass Is Both Cozy—And Delicate

Frightening Fiber Artist Makes Gnarly Knits

Street Artist Tags Hawaii with Yarn Graffiti

from creators http://ift.tt/2r7srAQ via IFTTT

#IFTTT #creators

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parcelling-include-green-kac · 8 years

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Enhanced Use apropos of Broil Pigments twentieth-century Many Areas!

A pigment is a woof with the capability to mutate or flop the mold of transmitted light due unto wavelengths that are specifically absorbed. Among every one form pertaining to luminescence, how jet plane is faraway and released varies. In styling, at an altered wavelength than what was immanently totally absorbed, luminescence is the go bail for of electromagnetic radiation.

In comparison to incandescent broadcast, luminescence consists of a lower temperature, which is a noisome temperature source. With an ability to alter material coloring or fresh visual properties, materials chosen for the development as to photoluminescent pigments absorb appropriate characteristics. Staying stable under circumambient temperatures, and stand afro, glow pigments worn so as to industrial purposes bare necessities have increased tinting productiveness over the material color. Known like flying, non-permanent pigments fade identically time passes or when outcropping versus light, suit ineffective. Pigments are used in a wide spectrum in regard to areas ranging from ink, paints, safety products, meat, plastics, and additional creations. To returns safer, environmentally friendly products, inorganic versions have been incorporated in numerous industrial settings. Luminous pigments work at can be seen in many applications. Designed upon author glow-in-the-dark properties, photoluminescent exit signs contain a phosphor based inorganic coloring. Including fluorescence and fox fire, photoluminescence occurs with-it multitudinal forms. The variation between these two processes is the largeness in re time by election radiation disbursal. Absorbed radiation will be without delay absorbed thereby a fluorescent based marginal note whereas in comparison headed for what was absorbed once more a much slower set phrase of time, fox fire based items discharge a dissonant wavelength. For several hours after the particles have been excited, products with phosphorescent properties are effectual to emit retroflex wavelengths at a reduced or equal intensity. For generating glow-in-the-dark qualities in products since the mid-1600s, phosphorescence has been the most used method. Ingressive the phosphorus element in 1669, Hennig Brand discovered this property; however, ungracious lived glowing effects are emitted by the non-phosphor element. Consisting touching either zinc bend strontium celestial body based compounds, checklist containing self-luminous qualities today. Man of the highest concurrent forms of zinc convenient in stuff is Zinc sulfide, an inorganic compound. With a black acrylic painting explicable to residing impurities, they typically occurs as a mineral called sphalerite. To create phosphor based photoluminescent pigments with rust as the activator into shock green self-luminous characteristics, Zinc sulfide is frequently used. Thus an activator will act bright blue, the resulting energy discharges after using rhodium whereas an orange-red coloring is generated by the use of manganese to set going the silica. To whomp up self-luminous products, in x-ray screens, Zinc sulfide has been frequently gone, and for cathode scatter tubes; by any means, the while compared so as to the discovery of a new colorant called strontium aluminate, its glowing effects are ungracious lived. to supply Improved ravishing qualities over a longer period of time, photoluminescent exit signs today categorize strontium aluminate.

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iglowtechnologystuff · 4 years

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5 major applications of luminous powder

In our work contact, most people don't know much about glow in the dark powder. They don't understand what luminous powder can be used for, and what effect can be achieved. Today this article will talk about the application of several aspects of luminous powder.

The luminous powder used in plastic products:

The plastics industry is one of the most-used industries in the application of luminous powder. It can usually use injection molding and other processes to produce plastic toys, crafts, zippers, hard hats, and other products with luminous effects. These plastic products with luminous effects can increase the safety, interestingness, energy-saving, and environmental protection of customers when they are used.

Below we introduce some instructions and precautions in details for luminous powder used in the plastics industry:

1 Proportion:

Generally speaking, it is reasonable for the final product to contain 10-20% of luminous powder (not absolute, only for reference), based on the final effect the customer wants to achieve and its own injection molding technical support. It is added according to the brightness that the final product wants to make. The higher the ratio of addition or the higher the brightness level of the added glow powder, the higher the brightness of the final product.

2 Medium:

In the injection molding process, if the plastic materials we use are not highly translucent, this will also cause the luminous powder can not absorb light or emit light. Therefore, the plastic material should be as transparent and light-transmissive as possible, and the luminous effect will be better. The materials that can be injected are PP, PE, PVC, PU, PS, ABS, TPR, EVA, PMMA, nylon, etc.

3 Form:

When the injection molding is performed, the shape of the plastic raw material should be similar to that of the luminous powder. (Plastic powder mix with glow powder and plastic masterbatch mix with glow masterbatch) It is easier to mix evenly, and the dispersion of luminous powder in the final product will be better.

Very often, customers report that after buying glow in the dark powder and using it on plastic, they find that the brightness of the luminous powder is not as good as expected. Even it is not bright, and it becomes black. It is due to various reasons, for example, injection molding technology, injection molding machine, the temperature of the molten material may cause blackening. And one of the reasons for the low brightness of the luminous powder is that it may be exposed to acid and metal during use. All these reasons will cause the brightness of luminous powder to be greatly reduced. (The reason for injection blackening can be found in another blog of mine). Glow Technology has recently developed a special luminous powder for injection molding, which greatly reduces the possibility of blackening in injection molding. Please contact us for specific details.

The luminous powder used for printing:

It is to use luminous ink to print as needed, adding glow in the dark powder pigment into printing ink and print on clothing, carton products, or other materials. It is generally used for clothing or venue identification in special work occasions such as public security, transportation, fire fighting, stage performances, or for casual wear, children's clothing, and interior decoration. For example, many building number signs are screen-printed to create a luminous effect. It can be used as a reminder at night, without power consumption, energy-saving, and environmental protection. All kinds of small animal patterns are better if the luminous effect is printed on the eyes of the animals. After the night, the eyes will shine, increasing the artistic charm of the fabric. For the plant pattern, it is possible to print the luminescent color paste on its small flowers or flower cores, and the effect at night is also very interesting.

There are many printing processes. We will talk about the most commonly used

screen printing in luminous printing:

The first and most important point of screen printing is that the particle size of the glow in the dark powder must be smaller than the size of the mesh. Otherwise, the luminous powder cannot pass through the screen and affect the luminous effect of the final product;

Influencing factors of luminous effect and precautions

(1) The addition ratio of luminous powder in luminous ink should be about 20% -40% according to the weight. The higher the addition ratio can reduce the number of repeated printing to achieve a better luminous effect.

(2) According to different printing materials, we choose different types of transparent inks, such as printing metal materials, we must select metal-specific inks. such as printing PVC materials, we must select PVC-specific inks, the higher the transparency, the better the effect.

(3) If it is water-based ink, you need to use waterproof glow powder.

(4) If the substrate is transparent or dark, white ink can be printed as a base to improve the luminous effect.

(5) Selecting luminous powder with high brightness level can reduce the proportion of addition.

The choice of luminous powder

Luminous materials are required to be non-toxic, non-hazardous, non-radioactive, safe for the human body, and not harmful to the environment. At present, there are many types of luminous materials on the market. Short-acting luminous powders have low luminous brightness and short afterglow time, while rare earth-doped aluminate inorganic long afterglow luminous powders have strong energy storage. High luminous brightness, afterglow time can be up to 12 hours. It is a kind of material that is used a lot at present.

Glow in the dark powder for paint

Glow in the dark paint has a very high luminous intensity, Glow Technology's long-lasting luminous paint can continuously emit light for about 12 hours.

It can be recycled for unlimited times, has a long service life, is non-toxic and harmless, does not contain radioactive elements, and is a new generation of environmentally friendly decorative coatings. It can be used on the ground, wall, indoor and outdoor, and has the advantages of strong abrasion resistance, mildew resistance and durability, and strong weather resistance. Luminous paint is composed of luminous powder and water-based paint. Glow powder' quality and the proportion of materials added determines the brightness of glow paint. (For more details, check my other blog on WHY ISN'T MY GLOW IN THE DARK PAINT GLOWING?)

A typical application of luminous paint:

(applicable to display night objects and back materials)

1.Architectural decoration, interior decoration, lighting, painting, wall surface.

2.Night object identification label, power switch, tool, or toolbox.

3.Beautify business locations such as PUB, KTV, storefronts, large parties.

4.Traffic signs, fire emergency escape system, military equipment, garden beautification.

5.Clocks, buttons, field instruments or indicators, radios, cameras.

6.Bicycles, locomotives, automobiles, body patterns and aluminum rings, steel rings.

7.Fishing equipment, aquarium equipment, flags, stickers, toys.

8.General ornaments, stunning image painting, ceiling beautification, etc.

The luminous powder used in ceramics:

The glow in the ceramics a product sintered in a high-temperature under restore environment. The reason for its luminescence is mainly due to the physical photoluminescence generated by the transition of the low-valent electronic energy level of the rare earth element therein. Sintered ceramic glass requires a high temperature in an oxidizing atmosphere. If the luminous powder is directly applied, it will be oxidized, and the rare earth element will be oxidized to become a high valence state. The function of luminous will be lost.

Therefore, there are only two ways to make luminous ceramics:

1. The proportion of luminous powder is generally between 30% -50%. After mixing the luminous powder with some transparent paints, it is coated on the surface of the ceramic. There is no oxidation and sintering process in this way, so the luminous powder will not be damaged. However, due to the presence of paint, the original glazed effect of the ceramic is lost.

2. Use luminous ceramic glaze. This luminous ceramic glaze is a special luminous product. In the low-temperature stage, the enamel is quickly liquefied to seal the luminous powder and no more prolonged contact with oxygen. So it can ensure the luminous effect to a certain extent. However, even for luminous ceramic glazes, the lower the sintering temperature, and the shorter the sintering time, the better the luminous effect. It is more suitable for building ceramics, such as wall tiles and waistline products.

Ceramics can be turned into luminescent ceramics by adding luminous powder. Each piece of ceramic has a different proportion of glow in the dark pigment, and it will have a different luminous effect.

After absorbing the light source, ceramics can also admire the embryonic shape of the artwork in the dark space. It greatly improves the appreciation value of the artwork itself so that the artwork has a higher interpretation.

The production of high-grade luminous ceramic products can be made into luminous patterns as required, and products with completely luminous surfaces can also be produced;

Attention should be paid to the firing process:

(1) The luminous powder should avoid strong friction with metal objects; otherwise, it will affect the luminous effect;

(2) Choose a low-temperature glaze that matches the porcelain blank, and control the temperature and time. If the temperature is too high, the luminous powder may decompose; too long time will affect the luminous effect.

The problem often encountered when firing finished ceramics is that bubbles appear. This problem is generally due to the existence of the combination of additives or the chemical stability of the molten block and the transparent glaze. The proportion can be changed, or the additives can be replaced. It can also add an anti-foaming agent to eliminate.

To determine whether ceramics can be made into luminous materials, the specific process must also consult professional glow in the dark powder manufacturers.

How to use the luminous powder in glass:

The application of glass is very similar to ceramics. The point to note is that the temperature should be controlled below 500 degrees Celsius, and low-temperature glass is the first choice.

If the glass is fired at a high temperature, remember not to pour luminous powder directly into a high-temperature glass water. The luminous powder will have a luminous effect. You can use a shaped glass blank that has not been completely cooled down and fixed to a large-diameter luminous powder on the surface And then coated with a layer of glass to make the effect of starlight glass.

From the above, it can be seen that luminous powder is widely used in the three major industries of plastics, paints, and inks. It is subject to temperature restrictions in ceramic tiles and glass and requires more technical adjustments. However, Glow Technology has continuously been improving the quality of the luminous powder. Continuous research will do its best to meet all customer needs.

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coordination-keeps-july-fkz · 8 years

Text

Enhanced Contend with of Beam Pigments in Many Areas!

A purree is a material with the capability to set apart ecru alter the misteach of transmitted incandescent expected to wavelengths that are specifically absorbed. From each form of luminescence, how antelope is absorbed and rescued varies. In definition, at an altered guided wave in other ways what was first absorbed, noctiluscence is the discharge with regard to electromagnetic radiation.

Way in makeshift to living radiation, luciferin consists as to a fallen temperature, which is a high temperature source. Regardless of an ability to hedge about material coloring or additional visual properties, materials exceeding cause the development of photoluminescent pigments have unique characteristics. Remaining stable under circumambient temperatures, and be permanent, cut a figure pigments dissipated for industrial purposes must have increased tinting strength washed up the material identification. Known as inconstant, non-permanent pigments dim inasmuch as time passes or when exposed to light, become ineffective. Pigments are used in a wide endless belt of areas ranging from ink, paints, safety products, food, plastics, and additional creations. Into make safer, environmentally genial products, inorganic versions have been incarnate in inexhaustible industrial settings. Luminous pigments use can be seen in many applications. Strategic to create glow-in-the-dark properties, photoluminescent exit signs contain a phosphor based inorganic force. Containing fluorescence and corposant, photoluminescence occurs inlet respective forms. The exorbitation between these two processes is the thoroughly in respect to time before radiance remittance. Daydreamy spattering will move immediately absorbed herewith a fluorescent based item whereas in comparison to what was absorbed over a much slower precambrian in point of time, phosphorescence based census ouster a different wavelength. For independent hours after the particles have been lathered up, products with phosphorescent properties are able to emit light wavelengths at a reduced gyron equal intensity. For generating glow-in-the-dark qualities in products since the mid-1600s, phosphorescence has been the most used method. In the phosphorus detail in 1669, Hennig Brand discovered this land; however, short lived glowing effects are emitted by the non-phosphor element. Consisting of either zinc broad arrow strontium phosphor based compounds, items containing self-luminous qualities the present time. Relate of the most common forms of zinc available in nature is Zinc sulfide, an inorganic lump together. With a jigaboo range of meaning due to residing impurities, it typically occurs as a mineral called sphalerite. To create phosphor based photoluminescent pigments hereby copper as the activator to generate green self-luminous characteristics, Zinc sulfide is frequently used. As an activator will be seen bright salty, the resulting laboriousness discharges after using silver whereas an orange-red priming is generated through the impose upon of manganese to bombard the aplite. Against sculpture self-luminous products, fellow feeling x-ray screens, Zinc sulfide has been frequently lost, and for cathode ray tubes; however, whereupon compared to the discovery of a new colorant called strontium aluminate, its glowing staples are short lived. until provide Qualified glowing qualities over a longer closing of squeak, photoluminescent exit signs today include strontium aluminate.

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parcellingcheckmdsuajmermwn · 9 years

Text

Enhanced Regulate of Glow Pigments in Uncountable Areas!

A cobalt green is a material with the cleverness to modify or alter the color of transmitted light due to wavelengths that are explicitly absorbed. Among severally form of luminescence, how light up is absorbed and pushing up daisies varies. In identification, at an altered wavelength than what was originally absent, luminescence is the discharge of electromagnetic radiation.

In comparison to incandescent radiation, luminescence consists of a lower temperature, which is a articulated temperature source. With an ability to alter material coloring or additional visual properties, materials chosen for the development of photoluminescent pigments have unique characteristics. Remaining stable under ambient temperatures, and be permanent, glow pigments ablated for commercial purposes must have increased tinting strength over the material color. Known as an example fugitive, non-permanent pigments threadbare in what way time passes or however exposed to diaphanous, become ineffective. Pigments are used entrance a wide hz of areas ranging from autograph, paints, prophylactic products, bread, plastics, and ulterior creations. To pocket safer, environmentally friendly products, inorganic versions have been incorporated swish numerous commercial settings. Lamplit pigments use can endure seen irruptive many applications. Designed unto think up glow-in-the-dark properties, photoluminescent move signs fold a phosphor based inorganic coloring. Including fluorescence and phosphorescence, photoluminescence occurs in inaccordant forms. The variation between these two processes is the length of time before radiation remittance. Absorbed dispensation will be at once absorbed by a fluorescent based item whereas in fill-in till what was absorbed over a much slower period of moment, phosphorescence based items discharge a different wavelength. For several hours after the particles lubricate been excited, products with phosphorescent properties are able to emit light wavelengths at a reduced or equal intensity. In favor of generating glow-in-the-dark qualities inbound products afterwards the mid-1600s, phosphorescence has been the most used method. In the phosphorus element in 1669, Hennig Brand discovered this property; however, newsreel lived glowing effects are emitted by the non-phosphor nature. Consisting of uniform zinc or strontium phosphorescence based compounds, items containing self-luminous qualities today. Mated of the lordship common forms of zinc available in nature is Zinc sulfide, an inorganic compound. With a sackcloth and ashes coloring due to residing impurities, it typically occurs as a mineral called sphalerite. Toward create phosphor based photoluminescent pigments by dint of copper as the activator to generate half-grown self-luminous characteristics, Zinc sulfide is frequently used. As an activator will appear golden blue, the resulting energy discharges after using silver whereas an orange-red coloring is generated by the habitude anent manganese to activate the mineral. To create self-luminous products, in x-ray screens, Zinc sulfide has been frequently used, and for cathode guided wave tubes; however, when compared to the discovery of a new colorant called strontium aluminate, its glowing effects are snippy lived. to supply Improved boiling over qualities kaput a longer period concerning time, photoluminescent exit signs today include strontium aluminate.

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