Enhanced TDS
Knowde-enriched technical product data sheet
Identification & Functionality
- Core Type
- Composite Materials Functions
- Technologies
- Product Families
Features & Benefits
- Materials Features
- Features and Major Physical Properties of Product
- *1 - The board was cut using an NC machine. The surface roughness of the cut section was measured through the use of a non-contact three-dimensional surface roughness tester. The surface roughness is the average absolute value of irregularities; and the lower the value, the smoother the surface.
- *2 - The milling resistance during cutting through the use of an NC machine driven with 4-component dynamometer under the following conditions was measured: Edge: through-away tip of carbide tool with a diameter of 16 mm, Revolution rate: 5,000 rpm, Feed speed: 2,000 mm/min, Cut depth: 3 mm
- *3 - The board was cut continuously for 10 m using an NC machine under the following conditions: Edge: normal cutting edge of high-speed steel with a diameter of 10 mm, Revolution rate: 10,000 rpm, Feed speed: 100 mm/min, Pick: 1 mm, Cut depth: 3 mm The degree of abrasion of the cutter edge after cutting was visually evaluated with a stereomicroscope (magnification: 50).
- Features
- Light weight, smooth surface, excellent machinability and antistatic property
- Painting processes can be simplified.
- Applicable to design models, styling models etc.
- Features
- Light weight, smooth surface, excellent machinability and antistatic property
- Painting processes can be simplified.
- Applicable to design models, styling models etc.
- Features and Major Physical Properties SANMODUR LC - M
- *1 - The board was cut using an NC machine. The Surface roughness of the cut section was measured through the use of non-contact three-dimensional surface roughness tester. The surface roughness is the average absolute value of irregularities; and the lower the value, the smoother the surface is.
- *2 - The milling resistance during cutting through the use of an NC machine driven with 4-component dynamometer under the following conditions was measured: Edge: throw-away tip of carbide tool with a diameter of 10mm (0.4in), Revolution rate; 10,000 rpm, Feed speed: 2,000 mm/min (6.56 ft/min), Cut depth: 3mm (0.12in).
- *3 - The board was cut continuously for 10m (32.8ft) using an NC machine under the following conditions; Edge: normal cutting edge of high-speed steel with a diameter of 10 mm (0.4in), Revolution rate: 10,000 rpm, Feed speed: 100mm/min (0.33 ft/min), pitch: 1mm (0.04in), Cut depth: 3mm (0.12in) The degree of abrasion of the cutter edge after cutting was visually evaluated with a stereomicroscope (magnification: 50)
Applications & Uses
- Markets
- Applications
Properties
- Physical Form
- Physical Properties
Value Units Test Method / Conditions Abrasion of Cutter Edge 0.9 mm in (mm) *3 Hardness 43 Shore D ASTM D2240 Coefficient of Linear Thermal Expansion 97x10^-6 (54x10^-6) °F/(°C) TMA Deflection Temperature Under Load 54 °F(°C) ASTM D648 Density 22 (350) lb/ft3 (kg/m3) ASTM D792 Flexural Strength 155x10^3 (7.4) lbf/ft2 (MPa) ASTM D790 Impact Strength 165 (2.4) lbf/ft2 (kJ/m2) ASTM D256 Milling Resistance 35 N lbf (N) *2 Surface Roughness 36x10^-6 (11) ft (μm) *1