Average Physical Properties of Shinkolite

項目 試驗方法 單位 連續澆鑄法
GB ISO 新光麗板DX 新光麗板LX 新光麗板MR 新光麗板PX
一般物性 比重 GB/T 1033 1183 g/cm3 1.19 1.19 1.19 1.19
吸水率 GB/T 1034 62 % 0.3 0.3 0.3 0.3
光學性能 折射率 GB/T 2410 489   1.49 1.49 1.52(硬化層) 1.49
全光線透過率 GB/T 2410 13468-1 % 93 93 93 -
霧度 GB/T 2410 14782 % 0.5 0.5 0.5 0.5
機械性能 拉伸強度 GB/T 1040 527-2 MPa 75 75 65 75
斷裂伸長率 GB/T 1040 527-2 % 4.5 4.5 2.2 4.5
彎曲強度 GB/T 9341 178 MPa 120 120 91 120
懸臂梁沖擊強度 GB/T 1843 180 kJ/m2 2 2 2 1.8
簡支梁沖擊強度 GB/T 1043 179 kJ/m2 17 17 - 17
洛氏硬度 GB/T 3398 2039-2 M scale 100 100 98 98
熱學性能 熱變形溫度 GB/T 1634 75-2/A 96 96 100 96
維卡軟化溫度 GB/T 1633 306 105 105 - 105
線膨脹系數 GB/T 1036 11359-2 1/ ℃ 7E-5 7E-5 7E-5 7E-5
熱導率 GB/T 3399 8302 W/(m·K) 0.21 0.21 0.21 0.21
比熱     J/(g·℃) 1.5 1.5 1.5 1.5
電氣性能 表面電阻系數 GB/T 1410   Ω >1E16 >1E16 >1E16 >1E16
體積電阻系數 GB/T 1410   Ω·cm >1E16 >1E16 >1E16 >1E16
絕緣擊穿強度 GB/T 1408   kV/mm 20 20 20 20
耐電弧性能 GB/T 1411     無痕跡 無痕跡 無痕跡 無痕跡
耐藥性*1 丙酮       × × ×
二氯甲烷       × × × ×
其他 燃燒性 GB/T 2408 1210 mm/min 33 33 33 20
UL94     HB HB HB HB
taber磨耗*2 GB/T 5478 9352 % 40 40 1.0~1.5 40
耐溫水性 40℃×10H     無變化 無變化 無變化 無變化
耐熱性 80℃×10H     無變化 無變化 無變化 無變化



  1. GB規格? 新光麗板通過GB/T7134-2008《澆鑄型工業有機玻璃板材》標準測定,并且達到優等品品質。
  2. UL規格
    品種 顏色 最小厚度 UL94級別
    新光麗板DX ALL 1.5 94HB
    新光麗板LX TP 1.5 94HB
    新光麗板PX500 ALL 1.5 94HB
    新光麗板MR200 NC 0.46 94HB
    ALL 0.81 94HB
  3. ISO9001.ISO14001


  4. 食品衛生法
  5. 通過日本食品衛生法,食品,添加劑的標準

    品種 證明編號
    新光麗板DX #001 第T70005980J001號
    新光麗板LX #001 第T70005981J001號
    新光麗板MR #001 第T70005977J001號

    Handling and storage

    SHINKOLITE, as a thermoplastic sheet, requires precautions to avoid mechanical, chemical and thermal damage during its handling and storage as detailed below

    1. Exposure to heat

      SHINKOLITE tends to deform under high temperature. It should be stored in an area whose ambient temperature does not exceed 50 C.

    2. Mechanical damage

      SHINKOLITE has relatively high surface hardness, comparable to aluminum. However, care should be taken not to have the surface scratched during handling. Both surfaces of SHINKOLITE are protected with masking film or paper. It is recommended not to remove the making until necessary to prevent dust collection and accidental surface scoring or scratching.

    3. Dust collection

      In case the unmasked surface of SHINKOLITE is rubbed strongly with dry cloth or the like to remove dust or stain on the surface, then static charge may build up to collect even more dust on the surface. Use of dampened cloth is recommended to wipe it with, if necessary, to minimize static build-up.

    4. Thermal expansion

      SHINKOLITE has a fairly large coefficient of thermal expansion. Thermal dimensional changes should be taken into account in processing and storing it. For example, an increase or decrease by 20C in the sheet temperature causes 1.4 mm of linear expansion or shrinkage per 1,000 mm in length of the sheet.

    5. Water absorption

      Humidity also causes dimensional changes of SHINKOLITE. Though such changes by humidity is not as great as thermal ones, humidity condition should be carefully watched. Water absorption, if excessive, may lead to bubbling during thermoforming or crazing after printing or painting. It is therefore recommended that storage and working areas should be air-conditioned.

    6. Solvent attack

      SHINKOLITE can be attacked by organic solvents resulting in micro cracks formed in the sheet surface. It should be avoided to store SHINKOLITE in such an area as may be exposed to solvent vapors.

    7. Combustion characteristics

      SHINKOLITE is not highly flammable, but burns when exposed to naked fire.

    8. Storage positioning

      SHINKOLITE can be placed either horizontally or vertically, when stored. The sheet can warp depending on the way it is stored. Either of the following is recommended.

    9. Standing Stand SHINKOLITE on the rack with bottom inclined at 10-degree angle. (See Figure A.) Place the sheets tight to each other. It is recommended to keep the total thickness of a cluster of sheets within 30 cm.


      Stacking Stack the sheets flat. In case sheets of different sizes are stacked, avoid an overhang with the smaller size sheet always placed on top of the larger ones. (See Figure B.) Also the total height of a stack should not exceed 50 cm. A stack consisting of the same size of sheets is much preferred.

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