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High Purity Ethylene Carbonate

High Purity Ethylene Carbonate. As ethylene carbonate is a highly polar solvent and dissolves large amount of electrolyte, it is mainly used in lithium batteries electrolyte solution. It can also readily dissolve polymers leading to use as a release agent and detergent. Our product is high quality with low impurity levels and low moisture. It has earned an excellent reputation for adherence to the strict quality standards demanded by our customers.
CAS: No.96-49-1
EINECS: No.202-510-0
Japan, Chemical Substances Control Law: METI-No. 5-523

Ethylene glycol

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Monoethylene glycol

Monoethylene glycol is one of the main raw materials for polyethylene terephthalate (PET resin). It is widely used for automotive antifreeze solutions because the freezing point is low, toxicity is low, and it is completely miscible in water.
CAS: No. 107-21-1
EINECS: No. 203-473-3
Japan, Chemical Substances Control Law: METI-No. 2-230
Japan, Fire Services Law: Hazardous material Class 4 Petroleums No. 3 (water-soluble liquid).

Ethylene Carbonate

As ethylene carbonate is a highly polar solvent and dissolves large amount of electrolyte, it is mainly used in lithium batteries electrolyte solution. It can also readily dissolve polymers leading to use as a release agent and detergent. Our product is high quality with low impurity levels and low moisture. It has earned an excellent reputation for adherence to the strict quality standards demanded by our customers.
CAS: No.96-49-1
EINECS: No.202-510-0
Japan, Chemical Substances Control Law: METI-No. 5-523

BioPTMG

Mitsubishi Chemical Corporation has developed BioPTMG, an environmentally friendly polyol that is manufactured from bio feedstocks.
BioPTMG has the same performance as petroleum-derived PTMG as a raw material for polyurethane resins and polyester resins, and has excellent impact resilience, wear resistance, hydrolysis resistance, flexibility at low temperatures, etc.
Taking advantage of its characteristics, it can be used in a wide range of fields from interior and fashion to industrial materials.
In case you are interested in our BioPTMG we are ready to send you samples for your own evaluation.

  • Grades:
    BioPTMG650、BioPTMG1000、BioPTMG2000、BioPTMG3000
  • CAS No.:
    25190-06-1
  • Japan, Chemical Substances Control Law:
    (7)-129
  • Japan, Poisonous and Deleterious Substances Control Law:
    Not applicable.
  • Japan, Fire Services Law:
    Hazardous Material Class 4 Petroleums No.4 Hazardous Rank III(BioPTMG650)
    Combustible Materials, Flammable Solids(BioPTMG1000, 2000, 3000)

PTMG

PTMG (Poly(tetramethylene ether)glycol / PTMG) is a linear polyether glycol with hydroxyl groups on both ends. As a polyol, it reacts readily with isocyanates (for example MDI, TDI), etc. to make resins with excellent properties.

  • Grades:
    PTMG250、PTMG650、PTMG850、PTMG1000、PTMG1300、PTMG1500、PTMG1800、PTMG2000、PTMG3000、PTMG4000(under development)
  • CAS No.:
    25190-06-1
  • Japan, Chemical Substances Control Law:
    METI-No. 7-129
  • Japan, Poisonous and Deleterious Substances Control Law:
    Not applicable.
  • Japan, Fire Services Law:
    Hazardous Material Class 4 Petroleums No.3 Hazardous Rank III (PTMG250)
    Hazardous Material Class 4 Petroleums No.4 Hazardous Rank III (PTMG650,850)
    Combustible Materials, Flammable Solids (PTMG1000, 1300, 1500, 1800, 2000, 3000, 4000(under development))

Maleic Anhydride

Maleic anhydride is produced by oxidation of benzene or a C4 hydrocarbon such as butane in the presence of a vanadium oxide catalyst. Maleic anhydride can be converted to maleic acid by hydrolysis and to esters by alcoholysis.

  • CAS: No. 108-31-6 (T)
  • EINECS: No. 203-571-6
  • Japan, Chemical Substances Control Law: METI-No. 2-1101
  • Japan, Industrial Safety and Health Law: ID No. 554 (SDS required)
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Not applicable.

THF

THF (Tetrahydrofuran) is a stable compound with relatively low boiling point and excellent solvency. It is widely-used for dissolution and reaction of various substances. Also it is used as a starting material for the synthesis of poly(tetramethylene ether) glycol (PTMG), etc. Since 1982, Mitsubishi Chemical's Yokkaichi plant has produced high-purity, high-quality THF from butadiene using our proprietary technology.

  • CAS: No. 109-99-9 (T)
  • EINECS: No. 203-726-8
  • Japan, Chemical Substances Control Law: METI-No. 5-53
  • Japan, Industrial Safety and Health Law: No. 5-53, ID No. 367 (SDS required)
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Hazardous Material Class 4 Petroleums No.1 (water-soluble liquid). Hazardous Rank II
  • U.N. Class: 3
  • U.N. No.: UN2056

NMP

NMP (N-Methyl-2-Pyrrolidone) is a polar solvent with outstanding characteristics. It has a wide range of applications because it offers very high solvency, high boiling point, low freezing point, and ease of handling.

  • CAS: No. 872-50-4 (T)
  • EINECS: No. 212-828-1
  • Japan Chemical Substances Control Law: METI-No. 5-113
  • Japan, Industrial Safety and Health Law: No. 8-1-1014
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Hazardous material Class 4 Petroleums No.3 (water-soluble liquid).

GBL

GBL has a wide range of practical applications because of its low freezing point, high boiling point, and a unique combination of solvent and electrical properties. It has applications as a solvent for special resins, in photography, in batteries, and as an electrolyte. Also a number of derivatives are synthesized from GBL.

  • CAS: No. 96-48-0 (T)
  • EINECS: No. 202-509-5
  • Japan Chemical Substances Control Law: METI-No. 5-3337
  • Japan, Industrial Safety and Health Law: No. 5-3337
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Hazardous material Class 4 Petroleums No.3 (water-soluble liquid).Aprotic, polar solvent.

2P

2P (2-Pyrrolidone) is a widely-used solvent with outstanding characteristics. It is miscible with almost all other organic solvents and has a high boiling point.

  • CAS: No. 616-45-5 (T)
  • EINECS: No. 210-483-1
  • Japan, Chemical Substances Control Law: METI-No. 5-112
  • Japan, Industrial Safety and Health Law: No. 5-112
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Hazardous material Class 4 Petroleums No.3 (water-soluble liquid).

12BG

12BG (1,2-butanediol) is a glycol with hydroxyl groups on the first and second carbon of the 4-carbon chain. It can react with a dicarboxylic acid (for example phthalic acid or adipic acid), for use as a polyester polyol or a plasticizer. Moreover, it is also possible to make it react with an unsaturated dicarboxylic acid (for example, maleic anhydride) for use as an unsaturated polyester resin raw material.

  • CAS: No. 584-03-2 (T)
  • EINECS: No. 209-527-2
  • Japan, Chemical Substances Control Law: METI-No. 2-235
  • Japan, Industrial Safety and Health Law: No. 2-235
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Hazardous material Class 4 Petroleums No.3 (water-soluble liquid).

14BG

14BG (1,4-Butanediol) is a straight chain glycol with hydroxyl groups on both ends. It is used as a raw material for high performance polyester and polyurethane resins as well as for industrial chemicals like tetrahydrofuran and gamma-butyrolactone. Since 1982, Mitsubishi Chemical's Yokkaichi plant has produced high-purity, high-quality 14BG from butadiene using our proprietary technology.

  • CAS: No. 110-63-4 (T)
  • EINECS: No. 203-786-5
  • Japan, Chemical Substances Control Law: METI-No. 2-235
  • Japan, Industrial Safety and Health Law: No. 2-235
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Hazardous material Class 4 Petroleums No.3 (water-soluble liquid).

PCD_BENEBiOL™

The world‘s only biomass-based polycarbonatediol with superior characteristics

Polycarbonatediol(PCD) is a linear polycarbonate with hydroxyl groups at both ends. It easily reacts with isocyanate compounds(e.g. MDI, TDI, IPDI, H12MDI), and generates polymers with characteristics such as durability and chemical/hydrolysis resistance.

BENEBiOL™ is the world’s only biomass-based PCD developed by our proprietary manufacturing technology. Because of “key monomer“ of each grade, polyurethane resins based on BENEBiOL™ will show an outstanding property level with regard to flexibility and chemical/stain resistance for example, in addition to the characteristics of conventional PCD. Besides, your product will be equipped with unique touch and feeling.

Furthermore, BENEBiOL™ enables your product to be more sustainable, as some of raw materials of BENEBiOL™ are biomass-based.

Characteristics of polyurethane resins based on BENEBiOL™

  • sustainable:
    biomass-based(some grades:non-edible biomass-based)
  • long life and good appearance:
    transparency, stain resistance, chemical resistance, durability, toughness, weather resistance
  • unique touch and feel:
    flexibility, soft feel and touch, high hardness, good fit

Pitch Coke

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Pitch Coke

Pitch coke is produced from coal tar that appears during coke production.
Pitch cokes are an essential raw material for building production equipment for semiconductor or solar array panel.
It is also used as a raw material for the anode in aluminum smelting.
CAS No.94113-91-4

DIAPOL™-WMB is a composite material (wet masterbatch) produced by acid coagulation of SBR latex, carbon black and water slurry in an ultradispersion process. It is widely applied as a raw material for industrial products; water seals and gaskets; and tires and belts.

DIABLACK™

DIABLACK™ has been used as rubber reinforcement material in a wide range of products such as tires and rubber products. CAS No.1333-86-4

MITSUBISHI™ Conductive Carbon Black

MITSUBISHI™ Conductive Carbon Black has been used as a conductive material in a wide range of products such as film, IC trays, heating sheet, magnetic tape, and conductive rubber. CAS No.1333-86-4

Carbon Black

MITSUBISHI™ Carbon Black is a black pigment that has been used in a wide range of fields such as newspaper ink, printing ink, colored resin, paint, toner, colored paper, India ink, and ceramics.
Various grades of carbon blacks are available ranging from all- purpose grade to high-grade. In addition, our line of products includes industrial and environmentally-friendly carbon blacks.

  • CAS No.1333-86-4
  • Carbon Black Association Handbook 3rd edition (Ref. 1)
  • Carbon Black Association Annual Report No.61 (2011) (Ref. 2)

TREXPRENE™ TPV (Thermoplastic Vulcanizate) is a heat stabilized, vulcanized PP / EPDM product. Globally available for a wide range of applications and approved to a variety of Automotive Specifications.

MARVYFLO

High flow PVC powders designed for the production of instrument panels, door panels, glove box and other automotive interior surfaces.

TEFABLOC™ is versatile family of thermoplastic elastomers (TPE). Applies to most of the environments and plastic converting processes.
TEFABLOC™ incorporates several technologies including TPE-S, TPO and TPE-E. Among the large scale of possible properties, some of them are also boosted in process by reactor or dynamic cross-linking.The accurate combination of features leads to tightly satisfy application specifications even the most demanding ones.

Halogen Free Flame Retardant (HFFR) olefin based compound with low smoke solutions (LSZH)

VINIKA™ is vinyl based, soft and rigid formulations designed for a wide variety of applications. Fine-tuned properties such as hardness, heat and impact resistance, colour and much more.

A unique tie-layer resin offering excellent adhesive performance to a variety of materials, covering various applications and requirements for automotive, food/non-food packaging, industry and building/construction.
MODIC™ offers two technologies designed to be used as a tie-resin or for peelable purposes:

THERMORUN®

THERMORUN™ is a comprehensive group of products designed for the manufacturing of airbag covers and housings.

Sunprene™ is high performance flexible PVC-P compounds for demanding environments with outstanding aesthetics.

Soarlite is the trade name of ethylene-vinyl alcohol copolymer for injection molding application as engineering plastics.

Soaresin™

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Soaresin™ is used as a stabilizer or purging agent for extrusion.

Polybutylene succinate (PBS) is the biodegradable plastic that decomposes into water and carbon dioxide with the microorganism under the soil. PBS has a high heat resistance among the general biodegradablility resin, and PBS has high compatibility with a fiber. Using these goodness, it's possible to achieve the performance which can't be shown by itself as the compound with other resin and material.duct life cycle.

DURABIO™

DURABIO™ is a bio-based polycarbonate resin derived mainly from plant-based isosorbide. Compared with conventional polycarbonate resin (hereafter abbreviated PC resin) made from bisphenol A (hereafter abbreviated BPA), DURABIO™ features high transparency, excellent optical properties, and outstanding scratch resistance. Its puncture impact behaviour are comparable to those for PC resin. DURABIO™ is a plant-derived polymer but is not biodegradable. It has excellent durability, making possible its deployment in a wide variety of applications such as for optical ・energy related components, a substitute for high-performance glass components, as well as for electronic equipment ・ automotive housings ・ interior and exterior decor.

jER™

Regarding the jER™ (formerly Epikote™ *) epoxy resin, Mitsubishi Chemical is prepared to support our customers' needs quickly and flexibly. Our production is extremely fast because we have accumulated many years of research with epoxy products. Our manufacturing, sales, research, and development are tightly integrated to enable rapid response to the challenges our customers face. (*Epikote™ is a trademark of Hexion Inc. )

jERCURE™ curing agents for epoxy resins are an abundant set of curing agents that cover the full range from low to high curing temperature with functional groups ranging from amine, mercaptan, and phenol to Lewis acid complex compounds. A curing agent can be chosen from this set to fit the application. There are water-based curing agents for water-based epoxy resins, too.

YED is reactive diluents for an epoxy resin that provides low viscosity without compromising the resin's special characteristics.

SURFLEN™ is a modified polyolefin elastomer with improved weather resistant adhesion and low temperature flexibility/shock resistance. It was developed uniquely in our company as a primer for coating non-polar olefin resin surfaces such as polypropylene (PP) and polyethylene (PE). SURFLEN™ binds well not only to polyolefin but also to various plastics and metal materials, and can be used in a wide range of applications including paints, print and adhesive primers for these materials.

Diabeam is a resin that is cured by irradiation with ultraviolet rays or electronic beams. It is well-regarded as environmentally friendly paint, and used in many different applications including paint, print, and other surface treatments.

Yupimer™ UV series are functional hard coating materials developed by Mitsubishi Chemical Co., with distinctive technologies. They have various functions such as antistatic, anti-fingerprint, slipperiness, and moldable.

SHIKOH ――UV Curable Resin from Mitsubishi Chemical

UV curable resin is garnering wide spread attention for its low-polluting, energy-saving properties and high productivity.
Mitsubishi Chemical offers a wide lineup of such resin under the SHIKOH brand name, with a special emphasis on urethane acrylate oligomer.
In addition to hard coating application, SHIKOH is suitable for use in a wide range of applications. Mitsubishi Chemical's SHIKOH holds the key to the future of ultraviolet curable resin.

In addition to a superior appearance, our coating resin gives improved weatherability and resistance to staining and other damage from chemicals. We have a wide range of product lineup including both liquid and solid types to suit all customer needs.

This is the world's first commercially launched, ecologically friendly acrylic powder for use in the production of plastisols. Acrylic plastisols can be gelled at low temperatures, and are used in various applications such as automotive-underbody coating, automotive-seam sealer and ink for textile printing.


MKC™ Silicate is an oligomer formed by the partial hydrolysis of tetramethoxysilane. As an additive in paints, it produces a hydrophilic surface that is highly stain-resistant with the self-cleaning effect.

DIACARNA™ is a synthetic wax copolymer of α-olefin and maleic anhydride. It serves a wide variety of applications including use as resin molding lubricants, mold release agents, compatibility agents, binders for thermal-printing inks, etc.
Japan Poisonous and Deleterious Substances Control Law: Not applicable
Japan Fire Services Law: Specified combustibles (flammable solids)

POLYTAIL™ is a polyhydroxy polyolefin oligomer developed using Mitsubishi Chemical's proprietary catalyst technology. It has a polyolefin skeleton and a terminal hydroxyl (-OH) group. By adding to polyolefin elastomers such as EPDM, etc., POLYTAIL™ creates adhesive, flexibility, lubrication, and dispersive properties.
CAS: No. 68954-10-9 (T)
Japan Chemical Mfg. Reg.: No.6-749
Fire Services Law: Specified combustibles

METABLEN is the trade name of modifiers, which have been developed originally by Mitsubishi chemical, a world prominent manufacture of methyl methacrylate resins. Adding a small quantity of METABLEN to various resins improves and increases their impact strength and processability, and further improves the characteristics, the appearance and the productivity of their final products.

METABLEN A type is acrylic-modified PTFE. With small amount of addition, it greatly improves the melt tension that is required in such processing as vacuum molding, foam molding, blow molding and profiling by minimizing increases in melt viscosity without sacrificing the inherent properties of thermoplastics.

METABLEN P type is an acrylic processing aid that offers significant benefits to processors of PVC, ABS, polycarbonate and other thermoplastics. METABLEN P type greatly improves the melt elasticity of thermoplastics and promotes fusion of PVC with addition of low use levels. These products are designed to offer maximum dispersability in much kind of thermoplastics. METABLEN P type is possible to correspond wide range of molecular weight.

METABLEN L type is an acrylic external lubricant that offers exceptional benefits to PVC processors with addition of very low levels. The low use levels mean that there will be scarcely effect on clarity, heat stability, chemical resistance and physical properties. As METABLEN L type introduces low haze contribution and excellent metal release, it is ideal for calendering, blow molding and extrusion applications.


METABLEN C, E, W and S type are a family of core-shell type impact modifiers, each of which offers unique benefits to manufacturers of thermoplastics products. These impact modifiers do not only improve impact strength but also give other additional benefits depending on the selection of rubber.
METABLEN C and E type have butadiene-based rubber to give super high impact strength.
METABLEN W type has acrylic-based rubber to give excellent weatherability.
METABLEN S type has silicone-acrylic-based rubber to achieve both super high impact strength and excellent weatherability.

METABLEN F type acrylic gloss control agent.
This additive is designed to offer maximum dispersibility of thermoplastics. As cross linked particles exist on the surface of final products, the light is dispersed. This structure gives mat appearance to the final product.
METABLEN F type can be also used as a blocking inhibitor for film and sheet.

METABLEN H-602 is an acrylic heat distortion resistant modifier for PVC.

METABLEN H-880 is acrylic copolymer having high compatibility with polycarbonate (PC). METABLEN H-880 improves the surface hardness without deteriorating transparency.

METABLEN TP type is melt-flow improver that maintains good clarity and other properties of polycarbonate (PC).

TAIC M-60 is the improve product made by impregnation of TAIC(Triallylisocyanurate) on to Calcium Silicate.
TAIC M-60 is outstanding and new type crosslinking agent for Polyolefines including Polyethylene, Polyprolylene, Chlorinated polyethylene, EVA, EPDM,etc..
TAIC M-60 is powdered from crosslinking agent and processes all of the characteristics of TAIC and much more improved qualities over TAIC as follows:

  1. 1)Easier handling in processing
  2. 2)Better dispersion into polyolefines in kneading
CASNo.:
1025-15-6 (Triallylisocyanurate)
1344-95-2 (Calcium silicate)
TSCA:
1025-15-6(Triallylisocyanurate)
EINECS:
213-834-7(Triallylisocyanurate)

TAIC WH-60 is the improved product made by impregnation of TAIC (Triallylisocyanurate)on to White Carbon.
TAIC WH-60 is outstanding and new type crosslinking agent for Polyolefines including Polyethylene, Polypropylene, Chlorinated polyethylene, EVA, EPDM, etc.
TAIC WH-60 is powdered from crosslinking agent and processes all of thecharacteristic of TAIC and much more improved qualities over TAIC as follows :

  1. 1)Easier handling in processing
  2. 2)Better dispersion into Polyolefines in kneading
CASNo.:
1025-15-6 (Triallylisocyanurate)
112926-00-8 (WHITE CARBON)
TSCA:
1025-15-6(Triallylisocyanurate)
EINECS:
213-834-7(Triallylisocyanurate)

YOSHINOX BB is a phenolic antioxidant used as a resin additive or resin chemical.

YOSHINOX 425 (2,2'-Methylenebis(6-tert-butyl-4-ethylphenol)) is a phenolic antioxidant used as a resin additive or resin chemical.

Polyvinyl Alcohol (PVOH) Film

Water-soluble films developed by a specialist in chemical materials

Hi-Selon is a water-soluble film made from polyvinyl alcohol.
With its excellent heat-sealing property and printability, Hi-Selon is ideal for use as a packaging materials, but it also provides many other advantages, including high solvent resistance and barrier performance, which are used as materials for packaging of liquid detergent capsules.

A picture of ACRYPLEN(acrylic film).

We have been engaged since 1975 in the development, manufacture, and sale of acrylic (PMMA) films through a combination of our unique in-house polymer design and thin film forming technologies.
ACRYPLEN (acrylic film) features the excellent transparency, weatherability, suitability for heat-molding and lamination processing. In addition, it has outstanding UV protection, making it ideal for use as a construction material, a paint-alternative, and a retro reflective material, as well as for a wide range of applications in the field of optical engineering.
Mitsubishi Chemical is a pioneer in the development of acrylic films, and the Company’s lineup encompasses products with a wide variety of thicknesses, widths, and differing degrees of flexibility/rigidity.

Tubular plastic tube that shrinks when heated for easy coating. The product is widely used in such applications as insulation, color-coding, protection and falsification prevention.
Download the catalog in PDF format for more information on the features and sizes of products.

Possesses strong adhesively because of special adhesion method. It makes a metallic material suitable for deep drawing.

High heat-resistant engineering plastic film formed with polyetherimide resin.

We provide various materials for electronic equipment parts that have excellent flame resistance, UV printability, and mechanical properties.

KEIJU is a thin thickness silicone rubber film.Thin thickness films are available with high accuracy.

Carbon fiber is a high-strength and high-elastic modulus material, yet its specific gravity is only one-fourth that of iron. It, therefore, enables high strength, high rigidity, and weight-saving in a wide variety of applications.
Carbon fiber tow, made of bundles of untwisted filaments, is the essential material in our carbon fiber product line.

Carbon fiber prepreg is an intermediate material in the form of a sheet of carbon fiber impregnated with matrix resin. There are various types of prepreg such as UD prepreg (unidirectional prepreg), in which carbon fibers are aligned in one direction, and cloth prepreg, in which carbon fibers are woven into a fabric and impregnated with matrix resin.

Carbon fiber fabrics have excellent drape properties which make them ideal for 3D shape applications. Due to the outstanding design possibilities they offer, carbon fabrics are also in high demand for applications that require visual appeal. As well as their design potential, carbon fabric materials offer excellent layup efficiency. You can layup a single ply in two directions.

Carbon Chopped Fiber is a product made by chopping carbon fiber tow.
Carbon Milled Fiber is a product made by grinding milling chopped fiber into a powder (milled) form.
Chopped fiber is typically around 3 to 6 mm long, while milled fiber is typically less than 200 µm long. Both of these materials are used to enhance the physical properties of thermoplastic resins and rubbers, and to increase electrical and thermal conductivity.

The High-performance Molding Systems Division has injection molding production bases in Nagahama City in Shiga Prefecture and Ogaki City in Gifu Prefecture. We provide various high-quality products primarily in the automotive industry via a consistent production process from die manufacturing to product delivery so as to meet our customers' needs. Our in-house production system incorporates many different coating technologies in addition to our injection molding technologies.

Carbon Fiber FMC (CF-SMC) is a sheet-type intermediate material made of cut high-strength carbon fiber impregnated with thermosetting resin. This material can be press molded, substantially reducing molding time compared to conventional autoclave or oven molding.

In addition, compared with carbon fiber intermediates of Continuous fibers, the random arrangement of Short fibers ensures fluidity and makes it possible to mold intricately shaped parts like those with ribs and bosses.

Carbon fiber pellets are thermoplastic molding materials created by blending carbon fiber with various resins to achieve performance that is superior to conventional reinforced resins. Advanced physical properties can be achieved by combining different base resins and carbon fibers, according to the specific application.

GDL (Gas Diffusion Layer) is a gas diffusion layer base material for fuel cells. This is a carbon paper-type product developed based on carbon fiber and composite material technology.

Carbon fiber composite materials, also known as carbon fiber reinforced plastics (CFRP), are composite materials made of carbon fibers and resin (mainly epoxy resin).
As light, strong, and hard materials, they are used in wide range of applications such as sporting goods, industrial, aircraft and automobile components. By selecting suitable resin, it is possible to add features like heat resistance, impact resistance, and flame retardant, and thus provide superior characteristics not found in conventional metals and ceramics to enable a reduction in the weight of parts, give freer design.

C/C (carbon fiber reinforced carbon) composites are made of carbon matrix reinforced with carbon fiber, and have high strength, high elasticity, high toughness, and ultra-high heat resistance, and can be used at temperatures above 1,000ºC.

C/SiC, also known as ceramic matrix composite (CMC), is a composite material with a ceramic matrix, and our CMC is reinforced with carbon fiber. It has higher strength and elasticity than C/C composite, and can be used in a wider variety of applications.

CARBOLEADER® is a carbon roller that simultaneously offers light weight, high rigidity, and a high critical number of revolutions. It is used for a wide range of applications, including separators for rechargeable batteries, for optical applications and all kinds of films, for printing, and paper manufacture. It can significantly increase productivity and reduce costs by improving production quality and speed, and reducing defect rates.

Thinner fibers made by split process
These are composite fibers of acrylic and acetate made by special technology. These split finely by external pressure in the papermaking process.

This fiber is lightweight with a specific gravity of 0.91 and hydrophobic (official moisture content of 0%). It also has excellent chemical resistance and can be easily recycled. Pylen is often used in applications that require extended functionality, such as industrial materials, carpets, and clothing.

Corebrid B is an acrylic staple fiber with a conductive sheath-core structure and light-absorbing heat generating property.
Inserting a high concentration of conductive and light-absorbing heating particles into the core creates a higher level of performance in comparison with fibers inserted using traditional methods.

Corebrid™ is an acrylic fiber produced by the world's only wet-spun, sheath-core composite spinning technology, which was developed by Mitsubishi Chemical.

This sheath-core fiber structure consists of core and sheath which enables different material combination to offer various functions. We are the first company to use such technology to produce this wet-spun fiber type.

VonnelTM is our company’s acrylic fiber brand and the main ingredient is acrylonitrile (AN). It has a soft and warm texture similar to cashmere and wool. It is used in sweaters, cut and sewn products, underwear, and socks. It is also used in non-clothing applications such as eco-fur, blankets, carpets, and non-woven fabric.

MOSMITE™ is a biomimetic material mimicking the fine uneven structure of moth eyes. It is a low-reflective film utilizing the antireflective properties of fine nanoscale protrusions. By applying the product onto glass and acrylic materials, glare may be reduced to a virtually reflection-free level.

Si Etchant Series is a silicon wafer etching acid for spin etching processer that eliminates damaged process layers from wafer surfaces.

MPG (natural graphite-based materials) / ICG (artificial graphite-based materials)

Mitsubishi Chemical provides two types of anode materials for lithium-ion batteries: MPG, natural graphite-based materials and ICG, artificial graphite-based materials. MPG shows excellent performance under rapid charging and discharging cycles. ICG has large capacity with improved battery life.

SHINKOLITE™ is the registered trade name of Mitsubishi Chemical's continuous cast acrylic sheet. Known as acrylic resin, this material has excellent weather resistance, stainability, and processability properties, and so is used in many applications such as signage, display, large water tanks, LCDs, and light guide plates. We will continue to leverage these properties and develop new products such as the flame-retardant and impact-resistant grades of SHINKOLITE. It is our goal to provide environmentally friendly products that make society safer and help people to have more comfortable and prosperous lives.

Methacrylic resin is an extremely high-quality material and is sometimes referred to as the "queen of plastics" due to having the highest degree of transparency among plastics as well as other excellent properties including weather resistance, chemical resistance, hardness, and attractiveness. This material is used in many products used in everyday life such as automobiles, building materials, household appliances, and optical goods.

ESKA is a plastic optical fiber product that exploits the excellent light-transmission properties of acrylic resins. It possesses a number of important characteristics not found in glass optical fiber, including light weight, flexibility, and easy processability. We are marketing ESKA for a wide number of applications in the fields of automotive networks, lighting, sensors, FA (Factory Automation) and data transmission.

"YUPO" is a synthetic paper made from polypropylene resin as its primary material. It offers extraordinary beauty, strength and flexibility. YUPO combines the advantages of both paper and plastic film, and thanks to its unique qualities, it is used widely in several fields, including the commercial printing, packaging and communication paper.

We are a one-stop shop for the development and manufacturing of compound products tailored by application and with plastics as their raw materials. The industries we serve are various and include automobiles, home appliances, and health care. We manufacture products to order, tailored to customers’ needs, using proprietary compound technologies.

The sales company for Japan Polypropylene Corporation and Japan Polyethylene Corporation, sells polyolefin resins, such as polyethylene (PE) and polypropylene (PP), in quantities of 25 kg bags and in larger quantities. Please feel free to contact us.

4HBA

4HBA, with a primary hydroxyl group at the end of a longer alkyl chain, gives excellent scratch resistance due to its high crosslinking ratio and unique flexibility

CASNo.:
2478-10-6
TSCA:
Listed

taic

Adding TAIC™ to the crosslinking process of polymers and rubbers greatly improves crosslinking efficiency, heat resistance, and mechanical properties.


CASNo.:
1025-15-6
TSCA   :
1025-15-6
EINECS:
213-834-7

MBTO (monobutyltin oxide) is used as an ingredient for the polyvinyl chloride resin stabilizer and catalysts for esterification and transesterification.

STANOCT (tin 2-ethylhexanoate), a resin additive or chemical, is used as a urethane foam catalyst and esterification catalyst.

BPDA

BPDA (3,3',4,4'-Biphenyltetracarboxylic dianhydride) is a raw material for the polyimide resin component of one of the super-engineering plastics. It is used for many important information and electronic technology products such as mobile phones and copying machines.
CAS: No.2420-87-3(T)
EINECS: No.219-342-9
Japan Chemical Mfg. Reg.: No.4-833
Japan Poisonous and Deleterious Substances Control Law: Not applicable
Fire Services Law: Not applicable

sol-rite

Sol-Rite™, formulated electrolytes in organic solvents, are mainly used for lithium-ion batteries. It is also used for primary lithium batteries and aluminum electrolytic capacitors. Functional additives in the formulation improve battery performance significantly.

Reny is our brand name of high performance polyamide compound reinforced with glass fiber, carbon fiber or mineral fillers, based on proprietary polyamides (mainly polyamide MXD6) developed by Mitsubishi Gas Chemical Company, Inc. Reny generally has he highest mechanical strength and modulus  in engineering plastics, most suitable for replacement of metal parts.

Iupital is a high-grade polyacetal (POM) resin using proprietary “copolymer” manufacturing technology of Mitsubishi Gas Chemical Company, Inc. The integrated production system, which takes the raw material methanol through POM resin polymerization to the end product (pellet), enables us to consistently manufacture and supply high-quality products. To meet a wide range of customer requirements, Iupital is produced in a variety of grades. These include high-performance grades, which make Iupital ideal for applications in such fields as electronics, office automation (OA) equipment, automobiles and precision machinery.

Iupiace is our modified polyphenylene ether (m-PPE) resin products, made from polyphenylene ether (PPE), developed by proprietary technology of Mitsubishi Gas Chemical Company, Inc., and polystyrene (PS) as major components. Iupiace provides well-balanced properties (mechanical, electrical, thermal, flame retardancy, dimension stability, etc.) together with the lowest density among common engineering plastics, also possessing UL Standard certification, enabling such wide applications as inner parts of electronic/office automation (OA) equipment, automobile outer parts and water pump parts.

LEMALLOY is a brand name of our modified polyphenylene ether resin (m-PPE resin) polymer-alloy type products (island-sea structure), consisting of polyphenylene ether (PPE) as the island and crystalline resins such like polyamides (PA) and polypropylene (PP) as the sea. LEMALLOY therefore provides well-balanced properties of crystalline resin (chemical resistance and moldability) and PPE resin (dimension stability and high-temperature rigidity), enabling use under various environments.

NOVADURAN is a name of a polybutylene terephthalate (PBT) resin made and sold by Mitsubishi Engineering Plastics.
NOVADURAN offers excellent mechanical properties, rigidity, heat aging resistance and chemical resistance. NOVADURAN also provides superb moldability, abrasion resistance, colorability and electric properties.

Designing comfort and safety of diversifying exterior applications

Our polycarbonate sheets for exterior use are an easy-to-use transparent material with excellent weather and shock resistance. For this reason, it can be bent for installation to fit sashes at room temperature, responding to sophisticated design needs. It also increases the flexibility of future structures as flame resistant roof material to direct sunlight into a house.

HISHIMETAL is a composites material that is produced by laminating PVC film on a base material such as galvanized steel sheets, stainless steel sheets and aluminum sheets. PVC film is a general purpose film and we have employed it as a laminating film for many years.
This material is used in many different industries because it has metal strength and workability in addition to the design qualities and functional properties of plastic film.

AIRLINER is a duct material with the strength of a steel sheet with the properties of a PVC film.
With functionality only possible in composite materials, this product is used to create more comfortable living environments.

HISHIMETAL PO incorporates galvanized steel sheets, stainless steel sheets, and aluminum alloy sheets as a base material.

HISHIMETAL PO is a composite material produced by laminating a polyolefin-based film onto the base material.

This material is used for interior and door etc.

HISHIMETAL HG incorporates galvanized steel sheets, stainless steel sheets, and aluminum sheets as a base material. HISHIMETAL HG is a composite material produced by laminating HG film onto the base material using our multi-layer extrusion technology.

This material is utilized primarily in door applications due to its many design options such as metallic designs and similar.

EXUM incorporates galvanized steel sheets, stainless steel sheets, and aluminum alloy sheets as a base material. EXUM is a polyester-based plastic film-laminated steel sheet manufactured by our multi-layer extrusion technology.

This material is primarily used in interior applications due to the combination of metal strength, workability, and design qualities.

HISHIMETAL EX is a highly functional material produced by laminating various high-performance films on a metal sheet using the HISHIMETAL manufacturing techniques. It has new functionalities including reflectivity, insulation and sliding properties.

HISHIMETAL EX-DR is a metal sheet laminated with a high reflective film.

This product is used as a reflective material for lighting and illuminated signs to help reduce the number of light sources needed.

ALPOLIC is Aluminum Composite Material (ACM) composed of two sheets of aluminum and the thermoplastic core.
ALPOLIC has been global leading ACM since 1970s and has been used worldwide in more than 130 countries.
We have a variety of product lineups with design and function using different types of materials on surface and core materials including ALPOLIC A1 which passed European fire classification A1 as the first ACM in the world, ALPOLIC/fr series which passed fire regulations around the world, and ALPOLIC/fr SCM with stainless steel on its surface.
For the details of products, visit ALPOLIC dedicated website.