Press release
Excellent Electrical Insulation Performance for Windform Composites
NASCAR application Electric enclosure 3D printed in Windform LX Glasse fiber reinforced composite
3D printing service bureau CRP Technology is pleased to inform that their Glass fiber reinforced Windform thermoplastic composites for Selective Laser Sintering, have demonstrated outstanding electrical insulation performance as confirmed by recent dielectric constant and dielectric strength tests. These tests have revealed remarkable results exhibiting a dielectric constant of approximately 4 and withstanding peak voltages of at least 2.5 kV/mm.
Renowned for their exceptional mechanical and thermal properties, Windform composites have undergone rigorous dielectric constant and dielectric strength tests, essential for evaluating material electrical performance, particularly in applications requiring electrical insulation. In today's automotive industry, characterized by hybrid or fully electric vehicles, the use of insulating plastic materials is paramount due to the reliance of the entire propulsion system on electricity.
Dielectric Constant Test:
The dielectric constant, often denoted by the symbol ε₀ (epsilon zero), is a fundamental constant in physics that represents a material's ability to resist the formation of an electric field within it.
During the test, the Glass fiber reinforced Windform thermoplastic composites Windform LX 3.0, Windform GT, and Windform FR2 exhibited a dielectric constant close to 4, with Windform LX 3.0 and FR2 slightly above 4, and Windform GT slightly below. The tests were conducted at the standard frequency of 1 kHz.
Dielectric Strength Test:
The dielectric strength test evaluated the maximum electric potential difference the materials can withstand before conducting electricity. Windform LX 3.0, Windform GT, and Windform FR2 demonstrated exceptional performance, enduring peak voltages of at least 2.5 kV/mm without any signs of deterioration. Specimens with a thickness of approximately 1.6 mm were subjected to sinusoidal voltages alternating at 50 Hz and amplitudes up to 4000 V without discharge.
These results are significant for electrical applications, where maintaining a dielectric constant around 4 is crucial, especially in fully electric vehicles with high voltage. Insulating plastic materials play a vital role in ensuring safety, efficiency, and proper operation of the electrical system. Examples include battery housings, power converter housings, cooling and air conditioning system components, and charging connector housings.
The ability of Glass fiber reinforced Windform thermoplastic composites to withstand voltages of at least 2.5 kV/mm ensures reliability and safety in environments with high electrical voltages, such as in the electric power and telecommunications sectors. Windform thermoplastic composites emerge as an excellent choice for applications demanding high-quality electrical performance and reliability.
Veronica Negrelli
Press Office manager
CRP Technology
via Cesare Della Chiesa, 150/C
41126 Modena
ITALY
CRP Technology is headquartered in Modena, Italy. It is distinguished by its know-how as professional 3D printing service provider with composite polymers fibers-reinforced technology. With its Rapid Prototyping Department consisting of 12 professional large and small/medium 3D printing Laser Sintering machines, it offers parts for short- and low-run production and prototyping services using its proprietary Windform TOP-LINE range of high performance composite materials.
As a material provider, CRP Technology develops, manufactures and sells to OEMs its Windform TOP-LINE composite materials. CRP Technology specific application fields including but are not limited to: automotive and motorsports, design, aerospace, UAVs, marine, entertainment, defense, and packaging.
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