aqua blue photoluminescent glow in dark adhesive tape, luminous sticker

10 meter per roll, blue green glow color
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jnxingyi@aliyun.com

Photoluminescent printable film for inkjet printer, glow in the dark vinyl

Luminous aqueous inkjet print film is the next generation of digital output materials, high-resolution photos can be printed directly. This product is non-radioactive, non-toxic, is not the only power capable of emitting and displays the contents of green energy-saving high-tech products at night.
The product has a strong light-emitting display, sunlight, lighting and all visible light has a strong phosphorescent. After the visible light 5-15 minutes, in the dark up to 8-12 hours of self-luminous, and long-term repeated use, the new chic, very appreciate value.
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Features:
1, this product is only suitable for water-based ink printing layer inkjet printing;
2, cutting easy, using a wide surface, can be directly used for inkjet printing;
3, STORING a short time, a large light-receiving area, high luminous intensity, long afterglow time;
4, non-toxic, no radiation, no pollution;
5, environmental adaptability, excellent heat resistance, cold resistance.;
6, the surface of the light uniformity, good finish;
7, PET base material, no shrinkage.
Application Scope:
free print production luminous photographs, stickers, wedding, decorative painting, tag, card, calendar, zodiac, auspicious patterns and other personalized luminous products, is emerging advertising, printing supplies.
Instructions for use:
1, this paper is mainly used for printing, please keep the surface clean and dry, especially not with a finger contact surfaces shall not allow water and other substances spilled on the surface, to prevent affect print quality.
2, printed photographs or other images should be dry covered after cold laminating film. (Conditional drying in the oven, the temperature controlled at about 50 C)
3, print settings: For best results recommended choice - photos, slides and other functions inkjet print (different models have different settings, print sharp images, print a small map test, adjusted to the optimum printing results )
Life:
more than 8 years of indoor and outdoor over 5 years.
Color:
green to yellow-based, other colors can be customized.  
Packaging and storage:
1, Packing: Carton
2, Storage: should be stored in ventilated, dry coffers

Glow in the dark adhesive tape, various width. Welcome OEM orders!

How much ratio of pigments should we take when make the luminescent products ?

This universal question has one answer. It is up to you. The amount of photoluminescent pigment to medium will depend on how much glow desired, cost effectiveness, type of application method etc. The Basic Guidelines dictate from 10% to 50% by weight. If you are producing a low cost item, then a lower percentage would work best for you. If you are screen printing shirts and want to make only one pass, a higher percentage would work better. Please also consider the particle size of the powder and the color of the surface to which the medium is going to be applied. Experimentation will be the best method of determining ratios after following the guidelines found on this paper. 

How to make photoluminescent ceramic glaze by using glow powder

Our pigment can be applied to make photoluminescent ceramic glaze directly. Following content is some information about the method of making photoluminesent ceramic glaze for your reference.
1.Make the based normal transparent ceramic glaze.The glaze should be ground thin,can through the 250mesh sieve.
2.Mixing well the photoluminescent pigment and the based ceramic glaze by the proportion of 4:6 to make the luminous ceramic glaze.
3.During the production,don't let the photoluminescent pigment touch with the metal material,otherwise the luminous effect will be affected
Use of Luminous Glaze of Pottery
1. Luminous glaze on the surface of internal brick wall
(1) Mix TGB-45M luminous glaze of pottery and water in the ratio of 1: 0.6—0.7 in ball grinding machine for about 20 minutes to prepare glair.
(2) Use the way of spreading, pouring and dropping glaze on the pottery blanks to form 200---400μm glaze layer.
(3) Let them dry.
(4) Quickly bake them for 35—50minutes with a temperature of 1000--1080℃ to get the glaze surface bricks that used on internal wall.　　　　　　　　　　　　　　　　　　　　　　　　　2. Luminous Ground Brick (with designs)
(1) Mix evenly TGB—45H luminous glaze of pottery and proper meshwork oil to get meshwork printing slurry.
(2) Print luminous glair using meshwork on the surface bricks with white unbaked glaze layer to form luminous designs.
(3) Pour transparent glair on the surface of designs.
(4) Bake them for 35—45 minutes with a temperature of 1100--1180℃ to get ground bricks with luminous designs.　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　3. Internal Wall Bricks with Luminous Design (Baked for three times)
(1) Mix TGB—45L luminous glair of pottery with proper printing oil of meshwork to prepare slurry for meshwork printing.
(2) Print luminous designs on the surface of baked bricks with white glaze.
(3) Pile transparent dry glaze powder on the luminous designs with meshwork.
(4) Bake them for 40—45 minutes with a temperature 900---1000℃ to get bulgy designs on the bricks for decoration of internal wall.
Notice:
1. Avoid attrition between luminous glaze and metals, or will influence luminous effects.
2. if there is settle in glair, add 2% pengrun earth to increase suspension of glair.
3. The preferential product applied is the transparent glaze produced by our corporation.

photoluminescent glow sticker luminous adhesive tape vinyl

Glow in the dark sticker, photoluminescent sticker
Glow color:  Yellow green
Thickness without back paper: 0.23mm
Materials: PET
Other available width:  1cm，2cm，2.5cm, 3cm, 5cm, 7.5cm, 10cm
Welcome to contact us for OEM orders!
About glow in the dark sticker
In general indoor lighting or natural light for about 20-30 minutes, you can continue to glow in the dark for 8 hours
  No power or other artificial energy use, the full use of natural light environment itself.
* Can be used permanently, non-radioactive, chemically stable, safe and reliable, good weather resistance.
* Long life, environmentally friendly, non-toxic, cost-effective. Super brightness,
  Allowing you to be more of a peace of mind in the dark.
* Glow in the dark tape not only bring you super warning effect, but also for your stage performances, adding a unique color.
This product is luminescent light-emitting strips, you must first absorption to light, so the light source shall be installed at.

Luminous Printing Ink Mixing Method and Direction for Use

These are the guidelines to making photoluminescent printing ink. Your application may require some adjustments to the technical material below. Mix the photoluminescent pigment into clear vehicles. Any other pigment in the medium will obscure the luminosity. Such photoluminescent printing ink is suitable for many surfaces such as paper, textile, wood, plastic, metal, ceramic, etc. The PL printing ink comprises PL pigment, organic resin, organic solvent and solvent assistant.

http://www.photoluminescentcn.com/4.technical%20support.html

How to make photoluminescent printing ink:
1. The choice of resin.

(1)Apply neutral transparent resin   ( Use transparent inks with pH levels around 7). We’d better to choose the resin for uncolored or transparent.

(2) Choose different transparent oil to mix into printing ink according to different materials. For instance, to print on metal, the mixed oil for metal should be chosen; print on PVC materials, the mixed oil for PVC material should be chosen.　

2. The choice of pigment.
Regarding the particle size of pigment, your better choice is 300grid/cm2(our specification of RBBx02,RBG x02). Because the pigment should be pass the silk-screen. Furthermore, bigger particle size will result in the more rough surface.

3. The dosage of PL pigment.

Generally speaking， 20%-50% by weight is the best ratio for mixing photoluminescent pigment to a vehicle. The percentage depends on how much glow is desired, how many passes you want to make, the screen mesh size, etc. If the base is a other color than white， you may need to add more pigments to achieve desired results. If the printing ink contains more luminous powder, the radiation degree will be higher and glow time will be longer.

4.  The technics of confect.
(1) Due to the nature of the photoluminescent pigment, an anti-settling agent may be required. photoluminescent pigment is heavier than most vehicles and settling does occur. Therefore use a viscous vehicle or an anti-settling agent,  always stir before printing.

(2) Do not use heavy metal compound as additive.
(3) Do not grind the photoluminescent pigment. If there is deposit, use containers with ceramic or glass inner and stir it with high speed.

(4)  Due to the nature of the photolumienscent pigment, it can deposit after long time storage. Just stir it while using, the deposit will not effect the luminosity.

Notice:

(1) The photoluminescent pigment will be dissolved in water somewhat and decomposed in acid liquid, so it can not be used in water-solubility and acidity solution(except for specially remarked).　　　　　　　　　

(2)The storehouse should be ventilated and dry, and the photoluminescent pigment should avoid to be affected with damp. It should be kept airproof if the photoluminescent pigment is not used totally.

(3) The afterglow brightness of photoluminescent pigment will diminish if photoluminescent pigment is gritted on the surface of the metal, so it can not touch metal.

Using for Luminous Printing Ink:

(1) Viscosity of ink should be about 3000-5000 micro-poises. During printing, viscosity should be adjusted by using a diluting agent based on printing speed.

(2) In order to get ideal printing pattern, we can choose meshwork with less 200 grid/cm2 to make plate. If we use the meshwork of less mesh, the ink layer will be print more thick, then we can get more bright pattern. So the meshwork with 80-120 grid/cm2 is ideal.
(3) Apply a white background coat under the luminous material layer to improve afterglow. Having the glow on top of any other color will diminish the glow strength.

(4) Regarding the thickness of printing ink layer, 100 um film thickness is required to achieve the best results. If you want the maximum luminous effect use 130-150 um thickness. Sometimes more than one pass will be necessary to obtain the level of glow required, the second or more pass should wait until the last layer has dried.

(5) If screen printing clothes try to use white fabric, any other color will decrease the glow. If using a non-white fabric, place a white layer below the luminous layer for the best glowing effect.

(6) One kilogram of dry photoluminescent pigment can cover an area roughly 3.3 square meters or 12 square feet with a 150 um thick film. One gram covers approximately 25 square centimeters.
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Phosphorescent Injection Molding Recommendations

• Avoid exposing product to strong acids and or heavy metal compounds as they will react with the glow component and destroy the phosphorescent effect.·         greater than 00.05 – 0.10%. Minimum Drying time should be 2- 4 hours at 180℉(Fahrenheit) in either a dehumidifier or hopper dryer. It is recommended that a dew point of -20℉(Fahrenheit)  be achieved for the inlet air Phosphorescent master batches or compound material containing luminescent pigment must be fully dried before using! 

• Use the smallest injection molding machine or barrel size in order to minimize residence time. A maximum 2.5:1 compression ratio screw is also recommended
• The use of a free-flow screw tip is highly recommended in order to minimize any shearing effects on the product which might degrade the phosphorescent effect
• The use of large-size nozzles and gates as well as full, round runners with no sharp turns are also recommended in order to minimize shearing·         For processing phosphorescent compounds, it is best to use machinery such as plunger-type injection molding machines or single-screw extenders, which ensure delicate handling of the phosphorescent material.  Always consult extruding machine manufacturers' specifications for processing temperatures and injection speed questions and or problems.  

• Utilize the least possible amount of back pressure in order to preserve the phosphorescent effect
• Mold surface and barrel temperatures should be set at the lower end of the optimal rang recommended for the base resin
• Be aware that the crystals that produce the phosphorescence in the product are highly abrasive and may scour the screw and or barrel. Prior to use thoroughly clean and purge the barrel always run virgin resin prior to running
• Note that this scouring action may in fact cause the crystals to become crushed resulting in a duller brownish green color. Only the adherence to recommended processing parameters and very thorough clean-out procedures will ensure that the resultant part color matches the original phosphorescent compound

Emitting phosphor is how? What phosphor glowing principle is

"Phosphor" light of revelation

In order to understand the chemical composition of the phosphor, we first thought of the firefly's glow, glowing firefly principles are the following series of processes.

Protein + into light into light into light oxygenated enzyme protein (glows green)

Oxygenated into light into light protein protein + H2O

That is why can firefly continuous light and flash light flash reason, it is worth noting that the green light emitted from the firefly is a "cold light", the result of the conversion as high as 97%.

Secondly, we also pay attention to the light-emitting plastic glow, glowing plastic mainly braced some radioactive material in ordinary plastic, in the light of lower radiation exposure, such as 14C, 35Sr, 90Sr and Na, Th, and light-emitting materials ZnS, CaS these sulfides , is excited and emits visible light (luminescence).

Chemical composition of the silicate phosphor fuzzy, tungstates, single element Ba, Sr and finally to the standard formula to deepen, the chemical composition of:

Category

Chemical Formula

Color

Density

Red powder

Y2O3: Eu

White

5.1 ± 0.2

Green powder

CeMgL11O19: Tb

White

4.2 ± 0.2

Blue powder

BaMgAl10O17: Eu

White

3.7 ± 0.2

Bimodal blue powder

BaMgA10O17: (Eu, Mn)

White

3.8 ± 0.2

The conversion of the phosphor, i.e., the infrared component of the excitation of the phosphor is:

Chemical composition: YErYbF3

Appearance: white inorganic powder

Grain size: 30nm

Excitation wavelength: 980nm

Color: Green

Features: high transmittance, a higher solvent, acid and alkali resistance

Several methods to deal with phosphors hazards

Since the phosphor in fluorescent tubes filled process, contain higher amounts of Hg, so the main source of harm is its dissemination of Hg vapor, authoritative data show:

Mercury vapor of 0.04 to 3 mg, the cause chronic poisoning people in the February-March; amount of 1.2 to 8.5 milligrams, will induce acute mercury poisoning, should the amount of 20 mg, will directly lead to animal death.

Once mercury enters the human body, can be quickly dispersed and accumulated to the kidney, breast and other tissues and organs, chronic mercury poisoning can cause mental disorders, autonomic disorders, acute symptoms often headache, fatigue, fever, swelling of the mouth and digestive tract gums pain, going to the dogs bleeding, loose teeth, etc., part of the skin of red spots, pimples, a few kidney damage, individual kidney pain, chest pain, dyspnea, cyanosis, such as acute interstitial pneumonia.

Should custody and improper disposal of mercury, will cause great harm to the environment, which in various forms into the environment, pollute soil, air and water, and then enter the body through the food chain, endangering people's health living, and therefore must not be fluorescent tubes discarded debris everywhere.

If the indoor fluorescent tube cracked after 1 gram available iodine / m fumigation or direct addition of alcohol with 1 g / m on the ground set the iodine dispersed 8-12 hours, so that volatilization or sublimation of the iodine is generated in the air mercury less volatile mercuric iodide (Hg + I2 = HgI2). For reducing the concentration of mercury vapor, but also with a 5% -10% of the ferric chloride or 10% bleach rinse contaminated ground. 

Introduce the basic knowledge and use of rare earth elements A basic knowledge

 English is rare Rare Earth, which means "rare earth." In fact, this is nothing but a legacy to the people of the 18th century misunderstanding. 1787 people have been found after several kinds of rare earth elements, but the corresponding mineral rarely found. At that time, the level of science and technology limitations, one can only obtain some impure, like earth oxides like, so people will give this group of elements has left such an interesting and unique name.

 According to the International Union of Pure and applied chemistry definition of rare earth elements, rare earth elements in Mendeleev's periodic table is the third sub-group from 57-71 atomic number of 15 lanthanide elements, namely lanthanum (57), cerium (58), praseodymium (59), neodymium (60), promethium (61), samarium (62), europium (63), gadolinium (64), terbium (65), dysprosium (66), holmium (67), erbium (68), thulium (69), ytterbium (70), lutetium (71), coupled with its electronic structure and chemical properties similar to scandium (21) and yttrium (39), a total of 17 elements. In addition to scandium and promethium, the remaining 15 elements often symbiotic.

    According between physical and chemical properties of rare earth elements and some of the differences and geochemical properties of the separation process requirements, scholars tend to rare earth elements are divided into light and heavy groups or mild, moderate and severe groups. Two points system is bounded by gadolinium, gadolinium previous lanthanum, dysprosium, cerium, praseodymium, neodymium, promethium, samarium, europium seven light rare earth elements, also known as rare earth elements cerium group; gadolinium, terbium and gadolinium later, dysprosium, holmium, erbium, thulium, 9 element ytterbium, lutetium and yttrium called heavy rare earth elements, yttrium group known as rare earth elements. Although only 89 atomic weight of yttrium, but because of its ionic radius of the ionic radius of the other heavy rare earth elements into the chain link, which is closer to the chemical nature of the heavy rare earth elements. Symbiotic in nature but also with other heavy rare earth elements. Therefore, it is classified as heavy rare earth group. Light heavy rare earth three classifications not as obvious, such as sulfuric acid complex salt solubility according to the size of the rare earth can be divided into: Insoluble light rare earth cerium group that group, including lanthanum, cerium, praseodymium, neodymium, samarium; terbium group that is slightly soluble in RE group, including europium, gadolinium, terbium, dysprosium; easier insoluble yttrium group that heavy rare earth group, including yttrium, holmium, erbium, thulium, ytterbium, lutetium. However, the solubility differences between adjacent elements in between the groups is small, this method is not sub-net. Packets are multi-extraction, for example, two (2)-ethyl group (phosphoric acid) can be grouped among i.e. P204 neodymium / samarium, gadolinium, and then between the / terbium grouping. It had, lanthanum, cerium, praseodymium, neodymium called light rare earths, samarium, europium, gadolinium called the earth, terbium, dysprosium, holmium, erbium, thulium, ytterbium, lutetium plus yttrium-called heavy rare earths.

    Rare earth content in the crust is not scarce, Clark value of this group of elements 0.0236%, which was 0.01592% cerium group elements, yttrium group elements 0.0077%; than common elements copper (0.01%), zinc (0.005%), tin (0.004%), lead (0.0016%), Ni (0.008%), cobalt (0.003%) so much. This group of elements but not the earth, but a set of typical metal elements, second only to its active alkali and alkaline earth metals.

Table 1-1 REE abundance in the earth's crust

Crustal abundance of the element name, ppm element names crustal abundance, ppm

Sc 25 Gd 6.1

Y 31 Tb 1.2

La 35 Dy 4.5

Ce 66 Ho 1.3

Pr 9.1 Er 1.3

Nd 40 Tm 0.5

Pm 4.5 * 10-1 Yb 3.1

Sm 7.06 Lu 0.8

Eu 2.1

REE position in the periodic table is very special, with 17 elements in the first ⅢB family, scandium, yttrium, lanthanum, respectively, for the fourth, fifth, sixth, long cycle in the first element of the transition elements of the series. 14 elements in nature is very similar to lanthanum after its chemists can only put them in a grid, no wonder some people regard them as "isotope" treatment, but because of their different atomic numbers, it can not be counted as real isotopes. That is, they are very similar nature, not exactly the same, which resulted in the separation of the difficulties of this group of elements, but also shows that as long as the use of its tiny difference, separation is possible; on the other hand, their electronic structure has a inner electron shell is not completely filled, ie 4f electron shell. 4f electrons due to the different layers, each element of this group of elements but also has a very special personality, especially optical and magnetic properties, like a plane full keyboard, wide range of piano.

    Information, biotechnology, new materials, new energy, space and marine scientists are pushing for the six new contemporary science and technology base, why people attach importance to rare earth, rare earth research and development of rare earth, rare earth elements is to science and technology in these six groups have their to display their skills in the world. However, after all, a group of rare earth elements is not yet been fully recognized elements, which requires a great effort to study, understand them, and thus to hold grip them, so that they have a greater contribution to mankind.

Second, the common use of rare earth

Here we talk specifically about the timing of the application of various rare earth elements, in order to better distinguish light rare earths and heavy rare earths:

Lanthanum (La): lanthanum is widely used, as applied to a piezoelectric material, electric materials, thermoelectric materials, magnetoresistive materials, luminescent materials (blue powder), hydrogen storage materials, optical glass, laser materials, and various alloy materials . She also applied to the catalyst in many organic chemical products, light is also used to convert agricultural film lanthanum, in foreign countries, scientists lanthanum role conferred on crops "super calcium" reputation.

Cerium (Ce): 1, cerium as a glass additive can absorb ultraviolet and infrared, has been widely used in the automotive glass. Not only UV protection, can reduce the temperature inside the vehicle, thus saving air conditioning electricity. From 1997 onwards, the Japanese auto glass full join cerium oxide, cerium oxide for automotive glass in 1996 at least 2,000 tons, the United States about 1000 tons. 2, which is now applied to the cerium autocatalyst, you can effectively prevent a large number of car exhaust into the air in the United States consumption accounts for the total consumption of rare earths in this regard than a third. 3, cerium sulfide can replace lead, cadmium and other harmful to the environment and human metal applied to the pigments, coloring plastics can also be used, such as coatings, inks and paper industries. Currently leading the French company Rhone-Poulenc. 4, Ce: LiSAF laser system is the United States developed solid-state lasers, by monitoring the concentration of tryptophan can be used to probe biological weapons, but also for medicine. Cerium broad range of applications, almost all application areas contain rare earth cerium. Such as polishing powder, hydrogen storage materials, thermoelectric materials, cerium tungsten electrodes, ceramic capacitors, piezoelectric ceramics, silicon carbide abrasive cerium, fuel cell materials, gasoline catalysts, some permanent magnetic materials, all kinds of steel and non-ferrous metals.

Praseodymium (Pr): 1, praseodymium is widely used in building ceramics and ceramics for daily use, and it is mixed with glaze made of ceramic glaze, also available separately as underglaze paint, made of pale yellow pigment, color pure, elegant . 2, for the manufacture of permanent magnets. Selection of inexpensive neodymium praseodymium neodymium metal instead of pure metal magnetic materials, its antioxidant properties and mechanical performance has improved significantly, can be processed into various shapes of magnets. Widely used in all types of electronic devices and motors. 3, for the catalytic cracking of petroleum. Praseodymium, neodymium enrichment in the form of adding petroleum cracking catalyst zeolite Y, you can increase the activity, selectivity and stability of the catalyst. Beginning of the 1970s put into industrial use, the amount is increasing. 4, praseodymium can be used for abrasive polishing. In addition, the use of optical fiber in the field of praseodymium more widely.

Neodymium (Nd): the arrival of neodymium rare earth elements active in the field, play an important role in the field of rare earth, and about the rare earth market. Neodymium is the largest user of NdFeB permanent magnet materials. The advent of NdFeB permanent magnets, rare earth high-tech fields injected new vigor and vitality. NdFeB magnet high energy product, known as the contemporary "King of the permanent magnet of" its excellent performance is widely used in electronics, machinery and other industries. The successful development of the Alpha Magnetic Spectrometer, marking the magnetic energy of NdFeB magnets has entered the world-class level. Neodymium is also used in non-ferrous materials. Add the magnesium or aluminum alloy of 1.5 to 2.5% neodymium, the alloy can improve the high temperature performance, air tightness, and corrosion resistance, is widely used as aerospace materials. Further, neodymium-doped yttrium aluminum garnet laser beam generating a short, widely used in the industry thin material thickness of 10mm or less welding and cutting. In medical, neodymium-doped yttrium aluminum garnet laser instead of a scalpel is used to disinfect a wound or surgical removal. Neodymium is also used in glass and ceramic materials, coloring additives and rubber products. With the development of science and technology, expand and extend, neodymium rare earth elements in the field of science and technology will have a broader use of space.

Promethium (Pm): promethium for nuclear reactors produce artificial radioactive elements, the main purpose is as follows: 1, can be used as a heat source. Provide auxiliary power for vacuum detection and satellites. 2, Pm147 emit low energy β-rays, for the manufacture of a battery, promethium. As the missile guidance instruments, watches and clocks of power. Such a battery is small, can be used continuously for several years. In addition, promethium also for portable X- ray instrument, preparing phosphors, measure the thickness and beacon lights.

Samarium (Sm): samarium cobalt magnet is the first industrial application of rare earth magnets to get. This has SmCo5 permanent magnet system and Sm2Co17 series categories. The early 1970s, the invention of SmCo5 Department late invented Sm2Co17 department. Now based on the latter's demand-driven. Samarium-cobalt magnets of samarium oxide with a purity need not be too high, from the viewpoint of cost, the main use of the product is about 95%. In addition, samarium oxide catalysts is also used for ceramic capacitors and aspects. In addition, samarium also has nuclear properties of structural materials can be used as nuclear reactors, shielding materials and control materials to make nuclear fission to generate tremendous amounts of energy to ensure the safe use.

Europium (Eu): Europium oxide mostly for phosphors. Eu3 + for red phosphor activator, Eu2 + for the blue phosphor. Now Y2O2S: Eu3 + is the best luminous efficiency phosphor coating stability, recovery of costs. Coupled with the improved luminous efficiency and contrast improvements in technology, it is being widely used. In recent years, europium oxide is also used by stimulated new X-ray-emitting phosphor medical diagnostic systems. Europium oxide can also be used in the manufacture of colored lenses and optical filters for magnetic bubble storage devices in the control of nuclear reactor materials, shielding materials and structural materials can have a go.  Long afterglow luminous powder production.

Gadolinium (Gd): 1, its water-soluble paramagnetic complexes in medical MRI can improve the body's (NMR) imaging signal. 2, which can be used as the sulfur oxides and a special x-ray brightness CRT screen grid matrix. 3, gadolinium in gadolinium gallium garnet magnetic bubble memory for storage is ideal for a single substrate. 4, in the absence of Camot circulation restrictions, can be used as a solid-state magnetic refrigeration media. 5, the level of the chain reaction inhibitor is used to control a nuclear power plant, in order to ensure the safety of the nuclear reaction. 6, is used as an additive samarium cobalt magnets to ensure performance does not change with temperature. Further, the use of gadolinium oxide and lanthanum together, and help to improve the thermal stability of the glass changes the glass area. Gadolinium oxide can also be used for manufacturing a capacitor, x-ray intensifying screens. In the world, efforts are being made to develop applications in magnetic refrigeration alloy of gadolinium and its terms, has been a breakthrough in the use of superconducting magnets at room temperature, the metal or alloy of gadolinium magnetic refrigerator for cooling medium has come out.

Terbium (Tb): 1, for the three-color phosphor in fluorescent green powder activator, such as terbium-activated phosphate matrix, terbium activated silicate matrix, terbium-activated cerium magnesium aluminate matrix, in Under both the excited state emits green light. 2, a magneto-optical storage materials, in recent years, a magneto-optical material terbium-based mass production scale has been reached, with the development of Tb-Fe amorphous thin film magneto-optical disc, a computer memory element for storage capacity increased by 10 to 15 times. 3, magneto-optical glass, glass containing terbium Faraday rotation is made in laser technology widely used in rotation, isolators and circulators key material. Especially Terfenol alloy (TerFenol) developed, it is opening up new uses for terbium, when placed in a magnetic field when the Terfenol, change its dimensions than the average magnetic variation in this change may make some Precision mechanical movement can be achieved. Terbium and dysprosium iron began mainly used sonar, has been widely used in a variety of areas, from the fuel injection system, the liquid valve control, micro-mechanical actuator positioned to regulate areas such as wing regulator bodies and aircraft Space Telescope.

Dysprosium (Dy): 1, as an additive to the use of NdFeB permanent magnets, adding about 2 to 3% of dysprosium in such magnets, the coercive force can be improved, the demand for small dysprosium past, but with the NdFeB magnets increase demand, it became necessary to add elements, quality must be about 95 to 99.9%, demand is also increasing rapidly. 2, used as a phosphor activator dysprosium, dysprosium (III) is a promising one-color light-emitting center of the light emitting material of active ionic species, it is mainly composed of two emission bands, one for yellow light emission, blue light emission and the other is , dysprosium-doped luminescent materials can be used as three-color phosphor. 3, dysprosium is preparing a large magnetostrictive alloy terbium and dysprosium iron (Terfenol) alloy metal material necessary, make some precision mechanical movement activities can be achieved. 4, can be used as a magneto-optical storage dysprosium metal material having a higher recording speed and reading sensitivity. 5, for the preparation of dysprosium lamps, work lamps substance dysprosium dysprosium iodide is used in such lamps have brightness, good color, high color temperature, small, stable arc, etc., have been used in movies, and printing lighting. 6, because of dysprosium elements with large neutron capture cross-sectional area  the property is used in the atomic energy industry, or do neutron spectrum measured neutron absorber. 7, Dy3Al5O12 also be used as magnetic refrigeration magnetic working material. With the development of science and technology, applications dysprosium will continue to expand and extend. 8. Photoluminescent pigment raw materials

Holmium (Ho): 1, used for metal halide additives, metal halide is a gas discharge lamp, which is developed on the basis of high-pressure mercury lamp, which is characterized by the light bulb filled with a variety of rare earth halide matter. At present, the use of rare earth iodide, emit different colors of light when the gas line discharge. In light of the working substance is used holmium holmium iodide, in the arc zone can obtain a higher concentration of the metal atoms, thereby greatly improving the radiation efficiency. 2, holmium yttrium iron can be used as additives or yttrium aluminum garnet. 3, holmium-doped yttrium aluminum garnet (Ho: YAG) laser can emit 2μm, human tissue for 2μm laser absorption rate than almost Hd: YAG high three orders of magnitude. So with the Ho: YAG laser at a medical surgery, surgery can not only improve the efficiency and accuracy, but can be reduced to a smaller area of ​​thermal damage. Freedom holmium crystal beam generated to eliminate fat without generating excessive heat, thereby reducing thermal damage to healthy tissue, according to reports the United States with holmium laser treatment of glaucoma, can reduce the pain of surgery patients. Level of 2μm laser crystal has reached the international level, should be vigorously developed and produced this laser crystal. 4, the magnetostrictive alloy Terfenol-D, can also be added a small amount of holmium, the saturation magnetization of the alloy thereby reducing the required field. 5, another with a holmium-doped fiber can make fiber lasers, optical amplifiers, optical fiber sensors, etc. optical communication devices in today's fast optical fiber communication will play a more important role.

Erbium (Er): 1, Er3 + has a special significance in the light-emitting 1550nm Department, because the wavelength is just at the lowest loss optical fiber optical fiber communications, erbium ions (Er3 +) by the wavelength of 980nm, the light 1480nm excitation from the ground state 4I15 / 2 transition to high-energy states 4I13 / 2, light emitted from the wavelength of 1550nm when in the high energy state to the Er3 + ground state and then transitions back to the quartz optical fiber can transmit a variety of different wavelengths of light, but a different decay rate of the bare different, 1550nm optical band transmission time decay rate lowest (0.15 db / km) in a quartz fiber, almost decay rate lower limit limit. Therefore, the signal light for optical fiber communication at 1550nm, light loss is minimized. Thus, if an appropriate concentration of erbium incorporated into a suitable matrix may be based on the principle of laser action, the amplifier capable of compensating for losses in the communication system, and therefore the need to enlarge the optical signal wavelength of 1550nm in the telecommunications network, the erbium-doped fiber amplifier is indispensable a small optical device, the current amplifier is an erbium-doped silica fibers has been commercialized. It is reported that, in order to avoid unwanted absorption of the erbium-doped fiber amount of several tens to several hundreds ppm. The rapid development of optical fiber communications, will open up new areas of application of erbium. 2, the other erbium-doped laser crystals and output 1730nm and 1550nm laser laser eye safety of human, good atmosphere transmission performance, strong ability to penetrate battlefield smoke, confidentiality, and not be detected by the enemy, irradiation military contrast targets larger, has made eye-safe laser rangefinder, portable military use. 3, Er3 + is added to the glass can be made of rare earth glass laser materials, the output pulse energy is currently the largest and highest output power solid-state laser materials. 4, Er3 + laser material conversion can be done on the rare earth ion activated. 5, the other may be applied to glasses doped glass, crystallized glass of the bleaching and coloring and the like. 

Thulium (Tm): 1, Tm used for medical X-ray radiation source, lightweight, thulium irradiated in a nuclear reactor to produce an isotope capable of emitting X-rays, can be irradiated to produce a portable blood analyzer, which can radiometer Tm -169 be so high neutron beam into effect thulium -170, and emits X-ray irradiation of the blood white blood cells decreased, and it is these leukocytes can cause organ transplant rejection, thereby reducing early organ rejection. 2, thulium elements can also be used in clinical diagnosis and treatment of tumors, tumor tissue because it has a higher affinity than the light rare HREE greater affinity, particularly in the largest pro-thulium elements together. 3, thulium activator LaOBr do in X-ray intensifying screen phosphors in: Br (blue), to enhance the optical sensitivity, thus reducing the X-ray exposure and hazards to human, with the previous phase calcium tungstate intensifying screens X-ray dose can be reduced more than 50%, which is of great practical significance in medical applications. 4, thulium can also make new additive metal halide lighting. 5, Tm3 + added to the glass can be made of rare earth glass laser material, which is currently the largest amount of output pulses, the maximum output power solid-state laser materials. Tm3 + laser material also can be converted on the rare earth ion activation.

Ytterbium (Yb): 1, as a heat shield coating material. Ytterbium can significantly improve the electrodeposited zinc coating corrosion resistance and coating containing ytterbium Yb ratio excluding coating fine grain, uniform and compact. 2, for the magnetostrictive material. This material has a super-magnetostrictive that expansion in a magnetic field characteristics. The alloy is mainly composed of ytterbium / ferrite alloy and dysprosium / ferrite alloy, and adding a certain percentage of manganese to produce giant magnetostrictive properties. 3, ytterbium element for measuring pressure, test proved that ytterbium element within the calibrated pressure range with high sensitivity, as well as pressure measurement applications ytterbium opened up a new way. , 4, molar empty resin-based filler commonly used in the past to replace amalgam. 5, Japanese scholars have successfully completed the preparation work ytterbium-doped gadolinium gallium garnet embedded waveguide laser line, the completion of this work on laser technology to further develop meaningful. Further, the phosphor is also used to activate the agent ytterbium radio ceramics, computer memory device (bubble) additives, and glass fiber additives, such as flux, and optical glass.

Lutetium (Lu): 1, the manufacture of certain special alloys. Such as lutetium aluminum can be used for neutron activation analysis. 2, the stable nuclide lutetium petroleum cracking, alkylation, hydrogenation, and catalytic polymerization. 3, yttrium iron or yttrium aluminum garnet add elements to improve certain properties. 4, the bubble reservoir materials. 5, a composite function of crystal doped lutetium, neodymium yttrium aluminum borate belongs to the technical field of cooled saline solution crystal growth experiment proved doped lutetium NYAB crystal optical uniformity and laser performance are better than NYAB crystal. 6, the foreign authorities found lutetium in electrochromic displays and low-dimensional molecular semiconductors have potential uses. In addition, lutetium battery technology is also used for energy and phosphor activated agent.

Yttrium (Y): 1, steel and non-ferrous alloy additives. FeCr alloys typically contain 0.5-4%, yttrium can enhance the oxidation resistance and ductility of stainless steel; MB26 alloy adding the right amount of yttrium-rich mixed rare earth alloy overall performance has been significantly improved, can replace part of the strong aluminum alloys are used for the force component of the aircraft; adding a small amount of rare earth in the yttrium-rich Al-Zr alloys, the alloy can increase the electric conductivity; the alloy has been used most domestic wire factory; yttrium was added in the copper alloy, to improve conductivity and mechanical strength. 2, 6% of yttrium and aluminum containing 2% of silicon nitride ceramic material, can be used to develop engine components. 3, with a power of 400 watts of neodymium yttrium aluminum garnet laser beam drilling, cutting and welding, machining of large components. 4, the electron microscope screen by Y-Al garnet single crystal composed of high fluorescence intensity, low absorption of scattered light resistance, high temperature performance and good resistance to mechanical wear. 5, Y yttrium up to 90% of high alloy structures containing aviation and may be applied to the low density and high melting point other requirements of the occasion. 6, the current much-doped yttrium SrZrO3 high temperature proton-conducting materials of concern, has important implications for the production of fuel cells, electrolytic cell, and require high solubility of hydrogen gas sensor. In addition, yttrium is also used for high-temperature coating material, nuclear reactor fuel diluents, additives and permanent magnetic materials for the electronics industry inhale agent.

Scandium (Sc): 1, in the metallurgical industry, the alloy used in the manufacture of scandium (alloy additive), in order to improve the strength, hardness and heat resistance and performance. For example, adding a small amount of iron, scandium, can significantly improve the performance of iron, a small amount of scandium added to the aluminum, which can improve the strength and heat resistance. 2, in the electronics industry, scandium used for various semiconductor devices, such as sulfites application of scandium in semiconductors have attracted attention at home and abroad, including scandium ferrite cores in the computer are also quite promising . 3, in the chemical industry, with the scandium compound as alcohol dehydrogenation and dehydration agent, a catalyst for producing ethylene and highly efficient production of chlorine by the time the waste hydrochloric acid. 4, in the glass industry, can be made of special glass containing scandium. 5, the electric light industry, scandium sodium and sodium-containing scandium made with high efficiency and light color are advantages. 6, scandium are 45Sc nature exist, in addition, there are nine kinds of scandium radioisotopes, namely 40 ~ 44Sc and 46 ~ 49Sc. Among them, 46Sc as a tracer, has been used in the chemical industry, metallurgy and other aspects of oceanography. 7, in medicine, there are people abroad with 46Sc to treat cancer research.                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                            

Photoluminescent pigment application methods in plastics, paints, inks, for example with the formula

1.  Photoluminescent pigment used in plastics

Photo luminescent pigments mixed with a variety of resins made from plastic pellets, such as: PE, PP, ABS, PVC, etc., by extrusion, injection molding, blow molding, vacuum forming and other methods to produce a wide variety of plastic products.

Luminous in the injection molding process more prone to "black", if controlled by the following precautions, you can greatly reduce the black problems and improve product quality.

Long luminance more "fear" iron, and iron in the contact process, the luminous powder will be issued Black, luminous performance degradation, therefore, the entire production process to reduce the contact time and contact strength powder and iron. Minimize powder and plastic pellets mixing time, mixing equipment can be modified conditions, the material and iron are separated, choose a shorter heating cylinder injection molding machines, injection molding control the temperature and injection pressure. Specific methods are as follows:

1 recipe areas:

a. Plastics Selection

The best choice of powder, and the melt index, the higher the better. Because the melt index of the resin is higher, give full play to the role of light-emitting material.

  choose b. glow in the dark powder

   With a smaller grain powder of 300 mesh or less glow brightness best.

  c. lubricant selection

   Polyester hydrocarbons (such as PE, PP) resin, stearic acid amide lubricant should be used in an amount of 0.2% of the amount of resin.

   ABS, PS, PC, AS, PMMA resin such as stearic acid amide lubricant is chosen, the amount of the resin amount of 0.5% to 3%, typically 1%.

  . selected dispersant d

   Choose powdered PE wax luminescent powder dispersion effect can be increased to improve the appearance of color products.

  . e coupling of choice:

   Prior to joining photoluminescent pigment resin, should be treated with a coupling agent, and then with resins and additives

Adding and mixing, to enhance the mechanical properties of the light-emitting plastic products. Titanate coupling agent, silane coupling agent content of about 1.3% luminous pigment. The amount of light emission is about 1.5% of pigment.

  . f stabilizers and antioxidants selection:

    The polyolefin-based resin may be added 0.6% of an antioxidant, and AT168 and AT1010 antioxidant such synergy. For the ABS resin may also be appropriate to add an antioxidant, the addition amount may be less than 0.6%.

2 workmanship:

  a. aspect ratio smaller devices should be used, if the device can not change, may be appropriate to raise the temperature of the host feed zone and transport segments (2-3 degrees can).

  b. hosts speed should be higher than under normal conditions of high speed 15-20%, in order to improve the operating speed of the material.

  c. When premixed materials, do not let the glow in the dark powder mixing machine at high or high mixing machine by any strong shear and friction. At the same time, try to use ceramic or plastic container when mixing. And try to shorten the mixing time, the general glow powder into the barrel after a stirring time can not be more than two minutes.

  d. the production of which should always clean the barrel spout and injection molding machines junction, to prevent precipitation luminous stick friction materials in drums and black.

2.  photoluminescent pigment http://www.photoluminescentcn.com

in the application of coatings and inks

May be mixed with a variety of transparent resin coatings and ink to make the glow in dark paint or inks. Such resins include acrylic resins, urethane resins, epoxy resins, amino resins, polyvinyl butyral resins, polyamide resins, etc., in coatings used in a proportion of 10% -50%, the proportion of the ink is 30% to 60% as well, the above-mentioned resin is dissolved with an appropriate solvent, adding luminescent pigment, and then adding a suitable anti-settling agents, antifoaming agents, dispersant mixed with a high speed mixer evenly but do not use edger grinding to avoid damage photoluminescent pigment characteristics; If you use sand,

Time is as short as possible, mainly emitting pigment dispersed.

(1) Example 1

Ingredients% wt

Photoluminescent pigment 35

Acrylic resin 38

Xylene 7

Butyl acetate 8

Defoamers right amount

Dispersant Deuchem R-920 1

Fumed silica 0.8

This formula applies to painted panels, dials, etc.

(2) Example 2

  Ingredients% wt

Photoluminescent pigment 50

      Thermosetting acrylic resin 30

      Fumed silica 0.8

      Dispersant ByK-300 1

     Defoamers right amount

3 . Photo luminescent pigments for screen printing, printing, printing pastes with

Examples of one:% wt

Foam printing paste 60

Bang pulp 20

Fixative 2

Photoluminescent pigment 18

Usage: After mixing, the screen printing, now with the existing, run out of time (to avoid gel).

Example 2: Dyeing

Bang pulp 50g

      1000g of deionized water

Softener 10g

      Glow in the dark powder 100g

http://glowstone.diytrade.com/sdp/2102660/4/cp-6989977/0/Luminescent_Pigment.html

The fabric is immersed in the solution dyeing uniformity, dry out the water, gas and iron molding.

All about our products use the recommendation, whether verbal, written or speculated from our test results, and are based on our current understanding of the product. Though we have such a recommendation, the customer or should take appropriate measures to Paul indeed our products to meet their specific process or purpose. because we can not control the applications of our products, and process conditions and process, so we do not take responsibility in this regard. Buyer shall ensure that the use of our products Large process does not infringe intellectual property rights of third parties and we guarantee under normal supply and storage conditions on the quality of our products free of defects.

Novel glow in dark products made from photo luminescent materials

Photoluminescent PU leather is made from the luminescent powder suitable for making luminous bag, sports ball , jacket , clothes, artware, toy etc. welcome to contact with us.

Photoluminescent plastic cup, made from PP or PC plastic materials with the luminescent powder, with high luminance and quality. Can be produce according to customers requests. Welcome to contact us !
Luminescent string and strip, have various applications, such as use for bag , shoelace , rope etc. Made from the photoluminescent powder, is a environmental friendly materials.

Luminous T shirt is made from the photoluminescent powder, it can glow in darkness continuous after aborbed the day light or lamp light. We can produce according to customer’s design or requests.
The luminesent glassware Made from the photoluminescent pigments, include: luminescent cup series, luminescent ashtray and glassvase. Made from the photoluminescent pigments with glassware. Can be glow in darkness by itself continously for over 7-8 hours after aborbed daylight or lamp light. They are non-radioactive, non-toxic and Green-Protection products. 
Glow in dark necklace
Luminous amber necklace can be glow in dark continuous after aborbed sun light or day light. Include various kinds of insect sample inside. Is a individuality ornaments.
Glow in the dark sports ball
The glow in the dark (luminescent) sports-ball products are the new developed products which have the inventive patent. They are made from the luminescent powder which is non-radioactive, non-toxic and environmental-protective material. After absorbing the natural light or lamplight about 10-20 minutes, the ball can glow in the dark for about 10 hours and repeat this courses for many years. 
They not only have the practicability, also suitable for use as the high grade sports-balls, artwork balls or signing ball for the sports-star. As a artwork, they have the better collection value, also can be use as the sales promotion articles for the corporation.
 

Photoluminescent stone is a new style photoluminescent products which is made from the synthetic resin and luminescent powder.  After absorbed the daylight or lamplight for 10—20 minutes, it can glow in the dark for about 10 hours with the yellow-green , blue-green etc. colour. It is a non-radioactive, non-toxic and environmental-protective products.

With the beautiful decorative glow effect and safety direction function, glow stone is suitable for many application area. It can be used in footpaths, gardens, rockeries, pebble paths, terrazzo concrete, driveways and so on. Spreading  around the swimming poor,  puting in the aquarium or inlay into the scenery wall all are the good idea for us to decorate the new house.

Photoluminescent bracelet finger ring Made from the photoluminescent pigments, can be glow in the darkness by iteself continously for over 7-8 hours after aborbed the daylight or lamp light. It is non toxic, non radioactive and environment friendly green products. We can produce according to customers size , spec.