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LCP-JX-LCPGF35M
Liquid Crystal Polymer (LCP) is a high-performance engineering plastic that exhibits excellent mechanical properties, heat resistance, chemical resistance, and low moisture absorption. It is well suited for precision components and ranks among the optimal material choices for micro‑motors and high‑frequency signal connectors, and can also be used in robotics.
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Liquid Crystal Polymer (LCP) is a high-performance engineering plastic that exhibits excellent mechanical properties, heat resistance, chemical resistance, and low moisture absorption. It is well suited for precision components and ranks among the optimal material choices for micro‑motors and high‑frequency signal connectors, and can also be used in robotics.
Electronic components such as servo motor connectors.
A key performance characteristic of lyotropic liquid crystalline polymers is their molecular structure. These polymers consist of rigid, rod-like macromolecules. When a lyotropic liquid crystalline polymer melt is subjected to shear or tensile flow—conditions commonly encountered in the processing of all thermoplastics—these rigid macromolecules spontaneously align into fibrillar and protofibrillar states, which become frozen upon cooling of the melt. This is how the morphology of solid‑state liquid crystalline polymers develops. In fact, the microstructure of LCPs closely resembles that of wood, with fibers of the same polymer interlocking with one another; accordingly, these polymers are also referred to as self‑reinforcing polymers. Fiber orientation increases as wall thickness decreases, resulting in higher tensile and flexural modulus values for polymers with thinner walls.
| Performance Properties |
Test Standard Test Standard |
International Unit Unit |
Experimental conditions Test Condition |
Product Grade | |
| JX-LCPGF30 | JX-LCPGF35M | ||||
| Density Density |
ISO 1183 | g/cm³ | 23°C | 1.612 | 1.675 |
| Ash content Ash |
/ | g/cm³ | 750℃/0.5h | 31.5 | 31 |
| Simply Supported Beam Impact Strength (Without Notch) Charpy impact strength |
ISO 179/1eU | kJ/m² | 23°C | 43 | 55 |
| Simply Supported Beam Impact Strength (Notched) Charpy notched impact strength |
ISO 179/1eA | kJ/m² | 23°C | 38 | 13 |
| Cantilever beam impact strength (notched) IZOD impact strength |
ISO 180/1U | kJ/m² | 23°C | 31 | 60 |
| Cantilever beam impact strength (notched) IZOD notched impact strength |
ISO 180/1A | kJ/m² | 23°C | 27 | 16 |
| Lifting intensity Tensile Strength |
ISO 527-2 | Mpa | 10mm/min | 160 | 140 |
| Tensile strain Tensile Strain |
ISO 527-2 | Mpa | 10mm/min | 1.6 | 1.7 |
| Flexural strength Flexural Strength |
ISO 178 | Mpa | 5mm/min | 220 | 200 |
| Flexural Strength Flexural modulus |
ISO 178 | Mpa | 5mm/min | 15000 | 13800 |
| Hot deformation temperature HDT |
ISO 75-1/-2 | °C | 8.0Mpa | 216 | 220 |
| Hot deformation temperature HDT |
ISO 75-1/-2 | °C | 1.8Mpa | 270 | 265 |
| Note: The above data are typical values and are provided for material selection purposes only. Note: The above data are typical, only for reference. |
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