Formulation problems for lasers
If you choose the right additive formula, almost any plastic can be printed on any type of laser machine. The supplier of the recipe or masterbatch needs to know the resin, the final application, the type of icon needed. For example, some plastics such as high density polyethylene and polycarbonate can be printed with YAG lasers in some colors without any additives. Carbon dioxide lasers, on the other hand, do not print well when they are printed without special additives.
The limitation of the prior art is that the ability to get a lustrous laser marking is limited, and the cost of the laser-preferred plastic is also higher than the l0%-15% of the market price, and sometimes higher.
Due to the development of compounding techniques, almost white markings can be obtained on black or blue acetal copolymers, or pure white markings can be obtained on black ABS. With special recipes and laser machine parameters, even tuned colors can be obtained. In this way, etched laser markings can be tuned to Pantone, MunSell or other industry standards. The pigment in the resin determines the color and hue, while the laser determines the intensity or concentration. Many laser marking colors/additives are based on surface-treated mica, such as the popular Afflair and Laser Flair formulations formulated by EM Industries. But other additives such as copper and tantalum are also used in the patent formula.
The companies that produce plastics for laser marking are BASF, Bayer, TiCOna and RTP. The main suppliers of specialty pigments and additive masterbatches for laser marking are Clariant and PolyOne.
Focusing first on auto parts, TiCOlla introduced two laser-markable black acetal copolymers, Celcon LM90 and LM90Z. The LM90 is used to print engine hoods and fuel device components. The LM90Z is a UV-stabilized type of interior trim, such as for speaker grills and release levers. TomMiller's automotive marketing manager said that patented additives are best suited for Nd:YAG lasers.
Ticona's latest research product is the CelCOll UVl40LG, which is said to be the earliest low-gloss acrylamide aldehyde copolymer for laser marking. It also has anti-ultraviolet effect. At the 2002 and 2003 Model Car Show, it was used primarily for radio buttons, hazard lights, and cruise controllers. Ticona also offers a laser-printable, smooth, glass-filled and mineral/glass fiber-filled Celanex PBT for marking automotive, electrical/electronic components that do not require aesthetics. The laser printable Vandar PBT based on the mixture and alloy is designated as the inner element of the car's inner tube. The new laser-printable Celanese nylon 66 is also used in the evaluation of automotive interior components. Most automotive parts require a white label with a white backing black mark. Not only does the black concentration have to be compared with the OEM's specifications, but also white ones. The resulting white concentration depends mainly on the additional packaging.
Laser etching, more precisely paint engraving, was applied to day/night reflective components such as fluorescent screens, car stereo surround control buttons and switches, and mirror housings since the mid-1980s. Some elements are particularly transparent polycarbonate or ABS, which are first painted white and then painted black. Using a laser for black etching results in a contrasting mark but little or no real color change.
RTP supplies several smooth, enhanced laser-markable plastic compounds. These plastics are PP, nylon (6,66,1 2,1 1,6 1 2), ABS, LLDPE, acetaldehyde aldehyde copolymer, thermoplastic polyurethane, polybutylene terephthalate, syndiotactic polystyrene, Polysulfone, PPS, TPO, Acrylic, PC/Acrylic, PC/ABS, LP C. There are great opportunities to print different colors on a black background in white, yellow, and green.
A study by BASF laser marking laboratory in Germany shows that the addition of glass fiber only slightly weakens the printing performance of plastics, but some fillers, flame retardants and re-ground particles can greatly reduce printing. performance. The resins available from BASF for laser marking include Terluran ABS, UltrafOrm acetal, Luran S ASA, Ultramid nylon, Lruan SAN and Ultradur PBT black pigments. Bayer, Germany, also does similar work. The company offers polycarbonate, ABS, and PBT for laser marking.
Most of Clariant's laser marking masterbatches are custom-made. We have our own laser marking powder bases, which are both mica substrate formulations and proprietary additive formulations (we hope to use these formulations to produce special masterbatches). Clariant's current achievable pigment effect is first to achieve a gradient from white to gray to black on any pigmented substrate. On very dark substrates, Clariant can provide blue, red, or green markings. Blasius expects to achieve a wider range of colors in the coming years.
PolyOne Group FastM. David Bates, ark marketing manager, said that their company's new masterbatch is suitable for use as a high-contrast pure black mark on white substrates and a pure white mark on black substrates. P01yOne also offers masterbatch, which can provide virtually any color marking (usually on black parts). The company combines the use of special-purpose colorants with additives for laser marking to create greater possibilities, such as printing shiny markings on naturally-colored containers. These new formulas represent a huge opportunity - on certain high-end SAN cosmetics packaging materials, polyolefin shampoos and thermostat bottle and caps are as good as toys. PolyOne has developed FastMar additives that are both smooth and can be glass fiber or mineral filled polyolefins, polycarbonates, PC/ABS, SAN.
Several other companies have also provided laser marking formulations on a low-key basis, including the Ferro Group, A. Schulman and LNP Engineering Technology Plastics. Sctlulman manufactures laser marking compounding and PolyBatCh masterbatches for automotive cabins. LPN offers laser-marked StarFlam flame retardant nylon models for compounding of electrical devices, Stat-Kon formulations for polyphenylene sulfide in medical containers, and ABS, PC and acetaldehyde formulations for surgery.
Laser marking technology prospects
Many plastic final products, such as computer and other office machine enclosure accessories, electrical enclosures and accessories, various electrical connectors, automotive interior parts need to be marked on the product trademark, specifications, use of materials, manufacturers, manufacturing date, validity period, etc. Such as plastic pipe also need to mark the molding machine model and so on. Some of these are to meet the requirements of commercial activities, and some are mandatory requirements of quality assurance regulations.
There are many methods of marking plastic products, such as direct molding (that is, engraving directly on the injection molding die), embossing, hot embossing, ink jet, and laser. Either way, the label is required to be legible, strong and durable, and it will not disappear by mechanical, chemical and physical factors.
Due to economic reasons, many methods that are currently used in China are direct molding, embossing, and hot embossing. Inkjet printing has increased (especially on pipe production lines), and laser marking methods are rare. Since the laser marking method has no need of inks and solvents, has good environmental adaptability, can flexibly control the shape of the marks by the computer, and can mark data with high density, the application range thereof is constantly expanding, and the application to the automotive interior parts is rapidly increasing. However, the laser marking method also has disadvantages. For clear laser marking, the plastic material needs to be appropriately modified with special additives.
With the expansion of the application scope of laser marking methods and the maturity of technology, the cost is declining, and a large number of plastic products need to be marked. Laser marking methods as a new generation of marking methods have broad development prospects in the plastic products industry.
Formulation problems for lasers If you choose the right additive formula, almost any plastic can be printed on any type of laser machine. The supplier of the recipe or masterbatch needs to know the resin, the final application, the type of icon needed. For example, some plastics such as high density polyethylene and polycarbonate can be printed with YAG lasers in some colors without any additives. Carbon dioxide lasers, on the other hand, do not print well when they are printed without special additives.
The limitation of the prior art is that the ability to get a lustrous laser marking is limited, and the cost of the laser-preferred plastic is also higher than the l0%-15% of the market price, and sometimes higher.
Due to the development of compounding techniques, almost white markings can be obtained on black or blue acetal copolymers, or pure white markings can be obtained on black ABS. With special recipes and laser machine parameters, even tuned colors can be obtained. In this way, etched laser markings can be tuned to Pantone, MunSell or other industry standards. The pigment in the resin determines the color and hue, while the laser determines the intensity or concentration. Many laser marking colors/additives are based on surface-treated mica, such as the popular Afflair and Laser Flair formulations formulated by EM Industries. But other additives such as copper and tantalum are also used in the patent formula.
The companies that produce plastics for laser marking are BASF, Bayer, TiCOna and RTP. The main suppliers of specialty pigments and additive masterbatches for laser marking are Clariant and PolyOne.
Focusing first on auto parts, TiCOlla introduced two laser-markable black acetal copolymers, Celcon LM90 and LM90Z. The LM90 is used to print engine hoods and fuel device components. The LM90Z is a UV-stabilized type of interior trim, such as for speaker grills and release levers. TomMiller's automotive marketing manager said that patented additives are best suited for Nd:YAG lasers.
Ticona's latest research product is the CelCOll UVl40LG, which is said to be the earliest low-gloss acrylamide aldehyde copolymer for laser marking. It also has anti-ultraviolet effect. At the 2002 and 2003 Model Car Show, it was used primarily for radio buttons, hazard lights, and cruise controllers. Ticona also offers a laser-printable, smooth, glass-filled and mineral/glass fiber-filled Celanex PBT for marking automotive, electrical/electronic components that do not require aesthetics. The laser printable Vandar PBT based on the mixture and alloy is designated as the inner element of the car's inner tube. The new laser-printable Celanese nylon 66 is also used in the evaluation of automotive interior components. Most automotive parts require a white label with a white backing black mark. Not only does the black concentration have to be compared with the OEM's specifications, but also white ones. The resulting white concentration depends mainly on the additional packaging.
Laser etching, more precisely paint engraving, was applied to day/night reflective components such as fluorescent screens, car stereo surround control buttons and switches, and mirror housings since the mid-1980s. Some elements are particularly transparent polycarbonate or ABS, which are first painted white and then painted black. Using a laser for black etching results in a contrasting mark but little or no real color change.
RTP supplies several smooth, enhanced laser-markable plastic compounds. These plastics are PP, nylon (6,66,1 2,1 1,6 1 2), ABS, LLDPE, acetaldehyde aldehyde copolymer, thermoplastic polyurethane, polybutylene terephthalate, syndiotactic polystyrene, Polysulfone, PPS, TPO, Acrylic, PC/Acrylic, PC/ABS, LP C. There are great opportunities to print different colors on a black background in white, yellow, and green.
A study by BASF laser marking laboratory in Germany shows that the addition of glass fiber only slightly weakens the printing performance of plastics, but some fillers, flame retardants and re-ground particles can greatly reduce printing. performance. The resins available from BASF for laser marking include Terluran ABS, UltrafOrm acetal, Luran S ASA, Ultramid nylon, Lruan SAN and Ultradur PBT black pigments. Bayer, Germany, also does similar work. The company offers polycarbonate, ABS, and PBT for laser marking.
Most of Clariant's laser marking masterbatches are custom-made. We have our own laser marking powder bases, which are both mica substrate formulations and proprietary additive formulations (we hope to use these formulations to produce special masterbatches). Clariant's current achievable pigment effect is first to achieve a gradient from white to gray to black on any pigmented substrate. On very dark substrates, Clariant can provide blue, red, or green markings. Blasius expects to achieve a wider range of colors in the coming years.
PolyOne Group FastM. David Bates, ark marketing manager, said that their company's new masterbatch is suitable for use as a high-contrast pure black mark on white substrates and a pure white mark on black substrates. P01yOne also offers masterbatch, which can provide virtually any color marking (usually on black parts). The company combines the use of special-purpose colorants with additives for laser marking to create greater possibilities, such as printing shiny markings on naturally-colored containers. These new formulas represent a huge opportunity - on certain high-end SAN cosmetics packaging materials, polyolefin shampoos and thermostat bottle and caps are as good as toys. PolyOne has developed FastMar additives that are both smooth and can be glass fiber or mineral filled polyolefins, polycarbonates, PC/ABS, SAN.
Several other companies have also provided laser marking formulations on a low-key basis, including the Ferro Group, A. Schulman and LNP Engineering Technology Plastics. Sctlulman manufactures laser marking compounding and PolyBatCh masterbatches for automotive cabins. LPN offers laser-marked StarFlam flame retardant nylon models for compounding of electrical devices, Stat-Kon formulations for polyphenylene sulfide in medical containers, and ABS, PC and acetaldehyde formulations for surgery.
Laser marking technology prospects
Many plastic final products, such as computer and other office machine enclosure accessories, electrical enclosures and accessories, various electrical connectors, automotive interior parts need to be marked on the product trademark, specifications, use of materials, manufacturers, manufacturing date, validity period, etc. Such as plastic pipe also need to mark the molding machine model and so on. Some of these are to meet the requirements of commercial activities, and some are mandatory requirements of quality assurance regulations.
There are many methods of marking plastic products, such as direct molding (that is, engraving directly on the injection molding die), embossing, hot embossing, ink jet, and laser. Either way, the label is required to be legible, strong and durable, and it will not disappear by mechanical, chemical and physical factors.
Due to economic reasons, many methods that are currently used in China are direct molding, embossing, and hot embossing. Inkjet printing has increased (especially on pipe production lines), and laser marking methods are rare. Since the laser marking method has no need of inks and solvents, has good environmental adaptability, can flexibly control the shape of the marks by the computer, and can mark data with high density, the application range thereof is constantly expanding, and the application to the automotive interior parts is rapidly increasing. However, the laser marking method also has disadvantages. For clear laser marking, the plastic material needs to be appropriately modified with special additives.
With the expansion of the application scope of laser marking methods and the maturity of technology, the cost is declining, and a large number of plastic products need to be marked. Laser marking methods as a new generation of marking methods have broad development prospects in the plastic products industry.
If you choose the right additive formula, almost any plastic can be printed on any type of laser machine. The supplier of the recipe or masterbatch needs to know the resin, the final application, the type of icon needed. For example, some plastics such as high density polyethylene and polycarbonate can be printed with YAG lasers in some colors without any additives. Carbon dioxide lasers, on the other hand, do not print well when they are printed without special additives.
The limitation of the prior art is that the ability to get a lustrous laser marking is limited, and the cost of the laser-preferred plastic is also higher than the l0%-15% of the market price, and sometimes higher.
Due to the development of compounding techniques, almost white markings can be obtained on black or blue acetal copolymers, or pure white markings can be obtained on black ABS. With special recipes and laser machine parameters, even tuned colors can be obtained. In this way, etched laser markings can be tuned to Pantone, MunSell or other industry standards. The pigment in the resin determines the color and hue, while the laser determines the intensity or concentration. Many laser marking colors/additives are based on surface-treated mica, such as the popular Afflair and Laser Flair formulations formulated by EM Industries. But other additives such as copper and tantalum are also used in the patent formula.
The companies that produce plastics for laser marking are BASF, Bayer, TiCOna and RTP. The main suppliers of specialty pigments and additive masterbatches for laser marking are Clariant and PolyOne.
Focusing first on auto parts, TiCOlla introduced two laser-markable black acetal copolymers, Celcon LM90 and LM90Z. The LM90 is used to print engine hoods and fuel device components. The LM90Z is a UV-stabilized type of interior trim, such as for speaker grills and release levers. TomMiller's automotive marketing manager said that patented additives are best suited for Nd:YAG lasers.
Ticona's latest research product is the CelCOll UVl40LG, which is said to be the earliest low-gloss acrylamide aldehyde copolymer for laser marking. It also has anti-ultraviolet effect. At the 2002 and 2003 Model Car Show, it was used primarily for radio buttons, hazard lights, and cruise controllers. Ticona also offers a laser-printable, smooth, glass-filled and mineral/glass fiber-filled Celanex PBT for marking automotive, electrical/electronic components that do not require aesthetics. The laser printable Vandar PBT based on the mixture and alloy is designated as the inner element of the car's inner tube. The new laser-printable Celanese nylon 66 is also used in the evaluation of automotive interior components. Most automotive parts require a white label with a white backing black mark. Not only does the black concentration have to be compared with the OEM's specifications, but also white ones. The resulting white concentration depends mainly on the additional packaging.
Laser etching, more precisely paint engraving, was applied to day/night reflective components such as fluorescent screens, car stereo surround control buttons and switches, and mirror housings since the mid-1980s. Some elements are particularly transparent polycarbonate or ABS, which are first painted white and then painted black. Using a laser for black etching results in a contrasting mark but little or no real color change.
RTP supplies several smooth, enhanced laser-markable plastic compounds. These plastics are PP, nylon (6,66,1 2,1 1,6 1 2), ABS, LLDPE, acetaldehyde aldehyde copolymer, thermoplastic polyurethane, polybutylene terephthalate, syndiotactic polystyrene, Polysulfone, PPS, TPO, Acrylic, PC/Acrylic, PC/ABS, LP C. There are great opportunities to print different colors on a black background in white, yellow, and green.
A study by BASF laser marking laboratory in Germany shows that the addition of glass fiber only slightly weakens the printing performance of plastics, but some fillers, flame retardants and re-ground particles can greatly reduce printing. performance. The resins available from BASF for laser marking include Terluran ABS, UltrafOrm acetal, Luran S ASA, Ultramid nylon, Lruan SAN and Ultradur PBT black pigments. Bayer, Germany, also does similar work. The company offers polycarbonate, ABS, and PBT for laser marking.
Most of Clariant's laser marking masterbatches are custom-made. We have our own laser marking powder bases, which are both mica substrate formulations and proprietary additive formulations (we hope to use these formulations to produce special masterbatches). Clariant's current achievable pigment effect is first to achieve a gradient from white to gray to black on any pigmented substrate. On very dark substrates, Clariant can provide blue, red, or green markings. Blasius expects to achieve a wider range of colors in the coming years.
PolyOne Group FastM. David Bates, ark marketing manager, said that their company's new masterbatch is suitable for use as a high-contrast pure black mark on white substrates and a pure white mark on black substrates. P01yOne also offers masterbatch, which can provide virtually any color marking (usually on black parts). The company combines the use of special-purpose colorants with additives for laser marking to create greater possibilities, such as printing shiny markings on naturally-colored containers. These new formulas represent a huge opportunity - on certain high-end SAN cosmetics packaging materials, polyolefin shampoos and thermostat bottle and caps are as good as toys. PolyOne has developed FastMar additives that are both smooth and can be glass fiber or mineral filled polyolefins, polycarbonates, PC/ABS, SAN.
Several other companies have also provided laser marking formulations on a low-key basis, including the Ferro Group, A. Schulman and LNP Engineering Technology Plastics. Sctlulman manufactures laser marking compounding and PolyBatCh masterbatches for automotive cabins. LPN offers laser-marked StarFlam flame retardant nylon models for compounding of electrical devices, Stat-Kon formulations for polyphenylene sulfide in medical containers, and ABS, PC and acetaldehyde formulations for surgery.
Laser marking technology prospects
Many plastic final products, such as computer and other office machine enclosure accessories, electrical enclosures and accessories, various electrical connectors, automotive interior parts need to be marked on the product trademark, specifications, use of materials, manufacturers, manufacturing date, validity period, etc. Such as plastic pipe also need to mark the molding machine model and so on. Some of these are to meet the requirements of commercial activities, and some are mandatory requirements of quality assurance regulations.
There are many methods of marking plastic products, such as direct molding (that is, engraving directly on the injection molding die), embossing, hot embossing, ink jet, and laser. Either way, the label is required to be legible, strong and durable, and it will not disappear by mechanical, chemical and physical factors.
Due to economic reasons, many methods that are currently used in China are direct molding, embossing, and hot embossing. Inkjet printing has increased (especially on pipe production lines), and laser marking methods are rare. Since the laser marking method has no need of inks and solvents, has good environmental adaptability, can flexibly control the shape of the marks by the computer, and can mark data with high density, the application range thereof is constantly expanding, and the application to the automotive interior parts is rapidly increasing. However, the laser marking method also has disadvantages. For clear laser marking, the plastic material needs to be appropriately modified with special additives.
With the expansion of the application scope of laser marking methods and the maturity of technology, the cost is declining, and a large number of plastic products need to be marked. Laser marking methods as a new generation of marking methods have broad development prospects in the plastic products industry.
Instant Dry AC is a dual-function Hair Dryer, for both wide-diffusion blow-drying via the Instant Dry System and a more narrow range with the standard setting. Featuring a powerful AC motor for long-lasting performance, and uncompromising drying efficiency with up to 30% less energy use.
AC Motor Hair Dryer
We've got you covered with the AC Motor Hair Dryer in hair care and styling you can be sure you'll be able to create the look you want.
Cheap Hair Dryer,Hair Dryer Machine,Ac Motor Hair Dryer,Dual Voltage Hair Dryer
Ningbo Meirou Electric Appliance Co.,Ltd. , https://www.mrairblower.com