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QLine-ups and Characteristics of Engineered Plastics Properties Properties Generic Generic Color Grade Feature Color Grade Feature Page Material Sample Color Name Electric Continuous Dimension Abrasion Sliding Page Material Sample Color Name Electric Continuous Dimension Abrasion Sliding Properties Use Stability Resistance Properties Properties Use Stability Resistance Properties

-50°C [Feature] Standard: Well balanced in heat resistance, insulation, dimension stability, chemical resistance, abrasion -40°C [Feature] MC ® of Nippon Polypenco Ltd. is the most general material in engineered plastics and used for various Ash

Standard Blue MC901 Insulation ~ R G G Standard PEEK Insulation ~ G G G resistance and machinability. industrial purposes. Brown 120°C 250°C Sliding: In addition to the features of Standard Type, it excels in mechanical characteristics and sliding property Excels in mechanical strength and abrasion resistance, but not in dimension stability due to high water at high temperature. absorption. Insulation Conductivity: In addition to the features of Standard Type, Specific Volume Resistivity is low and excels in [Appearance] Stripes on upper and lower surfaces of materials are developed from production process. Colors may have Normal and conductivity. -40°C lot variations but it does not affect the physical properties. Temperature Standard Ivory MC900NC Insulation ~ R G G P.959 PEEK Sliding Black - Conductive G G G [Appearance] Upper and lower surfaces of the material are glossy. Weld line (resin flow mark) is developed from

[Machinability] Machinability is good but less than that of Polyacetal due to special stickiness. ~ 120°C Mixed: Not production process. It can be removed by milled surface finishing. 250°C measurable. [Machinability] Machinability is good, however, they may tend to chip in the direction of the milling path. Beware of [Feature] Dynamic Coefficient is low. Excels in sliding properties, abrasion resistance and mechanical strength. the milling speed. When drilling a hole, the reference feeding speed when going through is 0.1mm per Normal [Appearance] Stripes on upper and lower surfaces of materials are developed from production process. Feel rough due to rotation. -40°C Temperature

Sliding Purple MC703HL Insulation ~ R P P the special additive. Conductive Black - Conductive G G G [Caution] Do not use Sliding Type and Conductive Type as heating elements or electric parts such as contact points or 120°C [Machinability] Same as Standard Type. ~ terminals. 250°C [Caution] Do not use for processing of food oils and fats. Normal [Feature] Standard: Excels in heat resistance, chemical resistance and dimensional stability. More economical than PEEK. Abrasion Normal [Feature] Upper temperature limit is higher than that of Standard Type and excels in mechanical strength. Resistance: Superior in abrasion resistance and sliding property, especially in dimensional stability to Standard Type. High Dark Temperature Natural Temperature MC602ST Insulation R G G [Appearance] Stripes on upper and lower surfaces of materials are developed from production process. Standard PPS Insulation G R R [Appearance] Upper and lower surfaces of the material are glossy. Weld line (resin flow mark) is developed from ~ Strength Brown Color ~ [Machinability] Same as Standard Type. Material is harder than that of Standard Type. production process. It can be removed by milled surface finishing. 150°C 190°C MC [Machinability] Machinability is good, however, they may tend to chip in the direction of the milling path. Beware of the P.963 PPS P.939 NylonR milling speed. When drilling a hole, the reference feeding speed when going through is 0.1mm per rotation. Normal Normal [Feature] Excels in weather resistance and abrasion resistance. Can be used outdoors over a long period of time. [Caution] PPS generates an oxide film on the surface and the color turns to brown when it is exposed to light and heat Weather Dark Temperature Abrasion Temperature MC801 Insulation R P G [Appearance] Stripes on upper and lower surfaces of materials are developed from production process. Blue - Antistatic P P G (direct sunlight, fluorescent light, mercury lamp and high-temperature atmosphere) for long hours. However, it ~ Resistance Gray Resistance ~ 120°C [Machinability] Same as Standard Type. changes little in mechanical prope 220°C *Unlike Standard Type, discoloration doesn't occur due to the addition of color.

Normal Normal [Feature] Unilate® excels in heat resistance, voltage resistance, strength and machinability. Unilate® of Unitica Ltd., not Electric Temperature Natural Temperature annealed material, is used. Conductivity Black MC501CDR2 Conductive R R G [Feature] Conductivity CDR2: Has the highest conductivity in MC Nylon® of conductive grade. Suitable where quick P.965 Unilate® Standard Unilate® Insulation G R R ~ Brown ~ [Appearance] Upper and lower surfaces are very smooth. CDR2 conductivity is required. 120°C 120°C [Machinability] Laminated plate with relatively good machinability. Conductivity CDR6: Electric property is between conductive and antistatic. The most general and economical in MC Nylon® of conductive grade. [Feature] Electric property is antistatic. Uses PET whose Water Absorption Ratio · Linear Expansion Coefficient is at low Normal Normal Conductivity CDR9: Electric property is antistatic. Has the highest heat resistance in MC Nylon® of conductive level, and thus, excels in Dimension Stability. Electric Temperature Temperature Conductivity Black MC501CDR6 Antistatic R R G grade. P.965 PET Antistatic Black PET300ESD Antistatic P G G [Appearance] Stripes on upper and lower surfaces of materials are developed from production process. Frequency of ~ CDR6 [Appearance] Marks are printed with "R2" (white), "R6" (yellow) and "R9" (green) marks on upper and lower surfaces of ~ color staining is less than MC Nylon® Conductivity CDR6. 120°C 100°C the material to distinguish the conductive grades. [Machinability] Uses PET material, and thus, is superior to MC Nylon, etc. in Machinability. Stripes on upper and lower surfaces of materials are developed from production process. Normal Normal [Machinability] Same as Standard Type. Material contains carbons and is harder than that of Standard Type. PBT PBT R [Feature] Excels in heat resistance, electric property, dimension stability and insulation. Electric Temperature Temperature Conductivity Black MC501CDR9 Antistatic R G G [Caution] Do not use as heating elements or electric parts such as contact points or terminals. P.967 Standard White Polybutylene Insulation G R ~ [Appearance] Marks of machining on upper and lower surfaces are developed from production process. ~ CDR9 Terephthalate Terephthalate ~ G [Machinability] Good machinability. 150°C 120°C

Normal POM -45°C [Feature] Excels in machinability and is possible. The material is often used for prototypes. ® Natural Temperature Standard White Polyoxymethylene Insulation ~ G R G [Feature] General Engineered Plastics for various industrial purposes. Equal to Duracon . P.967 ABS Resin Standard ABS Resin Insulation P R R [Appearance] Upper and lower surfaces are glossy and smooth by the size up to 10mm.

Color ~ Duracon 95°C Has low water absorption and excels in dimension stability. Inferior to MC Nylon® in heat resistance and [Machinability] Good machinability. 50°C abrasion resistance. [Appearance] Upper and lower surfaces look and feel smooth. Weld line (resin flow mark) is developed from production POM -45°C process. QReference Values of Specific Volume Resistivity and Heat Resistance (For physical properties, see P.899~P.901)

Standard Black Polyoxymethylene Insulation ~ G R G [Machinability] Good machinability. Duracon 95°C Specific Volume Resistivity (Unit: Ω·cm) P.943 Polyacetal Item 2 4 6 8 10 12 14 16 18 [Feature] Only small friction heat is generated when sliding and therefore small power is required for operation. Excels in ~10 10 10 10 10 10 10 10 10 -45°C abrasion resistance and dimension stability. Sliding White - Insulation ~ G P P Electric Property 95°C [Appearance] Same as Standard Type. Conductive Antistatic Insulation [Machinability] Same as Standard Type. 300 Normal [Feature] No-carbon antistatic material is used and effective for antistatic. Electric Temperature Ocher - Antistatic R G G [Appearance] Unlike Standard Type, weld line (resin flow mark) is not highly visible. Glass Fluorine Conductivity ~ 250 PEEK Electric Conductivity PEEK Fluorine 80°C [Machinability] Same as Standard Type. High Temperature Electric Conductivity Standard PPS Standard Abrasion Resistance Laminated 200 phenol -50°C Paper Natural N N PPS ~ Insulation ~ ~ [Feature] General material for various purposes such as insulation and heat resistance. Paper based materials are more Epoxy Glass Bakelite Color G Standard resin w/paper 100°C R R inexpensive than fabric based materials. Standard base [Appearance] Upper and lower surfaces are glossy and smooth. Natural color tone vary per production lot. 150 MC Conductive Nylon CDR9 Laminated Color becomes darker due to oxidation over time. However, it does not affect properties. Paper-based black MC Conductive Nylon MC Conductive Nylon CDR6 MC Nylon Standard PBT Polybutylene Terephthalate phenol -50°C N N color does not change. Paper 100 CDR2 Antistatic PET300ESD Bakelite - Paper / Cloth Unilate (Free-cutting Resin) ~ Bakelite Black formaldehyde Insulation ~ ~ P.947 Bakelite G [Machinability] Good machinability but dust scatters when machined. resin w/paper 100°C R R Ultra High-molecular-weight Polyacetal Polyacetal Ultra High-molecular-weight base Continuous Use Temperature °C Electric Conductivity Standard 50 Polyethylene Laminated [Feature] General material for various purposes such as insulation and heat resistance. Cloth-based materials have higher Electric Conductivity ABS Resin Standard phenol strength than paper-based materials. Cloth Natural -50°C N N ~ formaldehyde ~ ~ [Appearance] Upper and lower surfaces are smooth and have grains. Bakelite Color Insulation G resin w/cloth 100°C R R [Machinability] Good machinability but dust scatters when machined.Fabric based materials have less machinability than About Shape / Dimension Change of Resin base paper based materials due to . Normal [Feature] Excels in heat resistance, heat insulation and electrical insulation. Resin, unlike metals, can be easily distorted, expanded or contracted due to temperature and humidity. Temperature G N N [Appearance] Upper and lower surfaces are glossy and smooth. Cut surfaces appear whitish. Standard Green Glass Epoxy Insulation ~ ~ ~ See note below for designing. ~ P R R [Machinability] Because made of laminated glass fiber and epoxy resin, drilling or cutting in the direction of lamination 155°C may cause cracks. 1Shape Distortion 2Dimension Change Epoxy P.953 Glass Avoid long and thin shapes when possible. These shapes cause more distortion. 1°C change of the temperature may expand or contract the product by approx. 0.1mm. Normal [Feature] Excels in heat resistance, heat insulation and antistatic effect. It is recommended to split the dimension or place bolts to fasten. When storing the purchased products, be sure to keep them at ambient temperature (20°C). Electric Temperature G N N

Black - Antistatic ~ ~ ~ [Appearance] Upper and lower surfaces are not glossy but smooth. MC Nylon especially tends to expand or contract by water or humidity due to its water-

Conductivity ~ 260°C P R R [Machinability] Same as Standard Type. absorbing property. Pay extra attention to the dimension designing and storing Ø9.9 [Feature] Standard: Has low specific gravity and is lightweight. Excels in abrasion resistance and sliding properties. UHPE -100°C ® Milky New Lite of Saxin Corporation is used for the standard type of ultra-high-molecular-weight B 10 Standard White UHMWPE Insulation ~ R P P New Lite® 80°C polyethylene. Ultra High- Electric Conductivity: Excels in sliding property and abrasion resistance at ambient temperature with low load. A 200 T 2 Molecular- P.955 weight Also excels in conductivity. [Appearance] Clear white for Standard Type. Pullout marks are left at the extruded direction. Surfaces feel smooth. Polyethylene -100°C

Electric [Machinability] Hard to machine as they are soft. Be careful of the way to fix. T 2 Go north Conductivity Black - Conductive ~ R G G 80°C [Caution] Storing them against the wall causes warpage. Be sure to lay them out flat. Do not use Conductive Type as heating elements or electric parts such as contact points or terminals. A 200 [Feature] Standard: Excels in heat resistance and chemical resistance. Fluororesin is resin Teflon -40°C N (equal to Teflon®). ~ Standard White PTFE Insulation ~ G P 250°C R Electric Conductivity: Excels in heat resistance, chemical resistance and sliding property. No-carbon antistatic material is used and effective for antistatic. P.957 Fluorine [Appearance] Standard: Upper and lower surfaces look and feel very smooth. Normal Electric Conductivity: Feel less smooth than Standard Type, but excels in sliding property. Go south Ø10.0 Electric Temperature [Machinability] Hard to machine as they are soft and become swollen. White - Antistatic R G G Conductivity ~ [Caution] Storing them against the wall causes warpage. Be sure to lay them out flat. Ø10.1 260°C Do not use Conductive Type as heating elements or electric parts such as contact points or terminals. EDistorted parts can be fixed to a certain extent with weight on them for 24 hours or so. EDimension change of the parts will be back to a certain extent after leaving them at ambient temperature. 2 -897 2 -898