C/C-Two-dimensional Plate
※ Using high-strength, high-modulus carbon cloth and high-performance adhesive, it is made through the process of heat pressing and special strengthening.
※ With high carbon fiber content (>70%),high shear strength and high flexural modulus, it has resistance to delaminating and creeping.
※ The heating life of ingot furnace cover is more than 120 times, roof and side plate is over 200 times.
※ Widely used in the field of poly-silicon production and successfully replaced the imported parts.
密度Density (g/cm3) | 弯曲强度Flexural Strength (MPa) | 弯曲弹模Flexural Modulus (GPa) | 压缩强度Compressive Strength (MPa) | 层剪强度Shear Strength (MPa) | 膨胀系数Coefficient of Expansion (10-6/K) | 最高热处理温度Highest Heat Treatment Temperature (℃) | 灰分 Ash (ppm) |
1.4-1.7 | 120-180 | 25-35 | 180-250 | 12-16 | 1.5-2.5 | 2000 | 30-200 |
Company Profile:
Yantai Kaibo Composite Technology Co., Ltd is a new innovative high-tech enterprise engaged in research, production and development of serial products of highly functional carbon matrix (carbon/carbon, carbon/ceramics) composites and other special types of composites.
The company has a research and production team made up of the core part,experienced experts who have been working on aerial materials, nuclear materials for a long time, youth engineering material postgraduates as the backbone and highly skilled workers as the main force.
Established in January 11, 2011, the company owns registered capital of 20.68 million, a production plant of 8000 square meters and a research & development office centre with a quality control testing centre of 2000 square meters. It also has first-class production equipment and advanced physical and chemical testing conditions.
In 2012, the company passed the ISO9001, ISO14000 certification,
and received the Certificate of Hi-tech Enterprise in 2014.
Company Vision
On the basis of advanced aviation technology, we use patent technology of independent innovation to manufacture serial products of carbon matrix composites and special types of composites, shorten production period, reduce production costs, and open up a realistic and feasible new way for high-performance carbon matrix composites to be widely used in single crystal silicon and poly-silicon furnaces and other industrial furnaces, which can meet the broad needs for carbon matrix composites of highly functional features in the development of new energy industry and others all over the country.
Qualifications
