1) air plasma spray
空气等离子喷涂
2) vacuum plasma spray
真空等离子喷涂
1.
HA coatings with silver-zirconium phosphate antimicrobial were prepared via vacuum plasma spraying, and then their surface morphologies, phase compositions, bonding strengths and antibacterial capability were examined.
以磷酸锆载银抗菌剂作为添加剂,制备真空等离子喷涂抗菌羟基磷灰石(HA)涂层, 并对涂层的形貌、组成、结合强度以及抗菌性能进行研究。
2.
Boron carbide coatings were deposited onto stainless steel via vacuum plasma spraying (VPS), and then their phase composition, microstructure, deposition efficiency, bonding strength and laser irradiation resistance were examined.
采用真空等离子喷涂技术,在不锈钢基体上制备碳化硼(B4C)涂层,并对涂层的组成、结构、沉积效率、结合强度以及抗激光辐照性能进行了表征。
3.
B4C coating with the thickness of 200 300 μm was processed by vacuum plasma spray(VPS) on the substrates of stainless steel and copper alloy,which is an econmical and more efficient technology.
在不锈钢和铜合金基片上直接采用真空等离子喷涂法实现200 μm ~300 μm 厚的 B4 C 涂层, 是一种经济、快速且有效的第一壁制造工艺。
3) Air plasma spraying
大气等离子喷涂
1.
Different zirconia based thermal barrier coatings(TBCs) were fabricated by air plasma spraying including the conventional TBCs,the nanostructured TBCs from the reconstituted nanoparticles(the nano-coatings) and the special TBCs from the hollow spherical powder(the HSP coatings).
采用大气等离子喷涂方法制备不同类型的氧化钇部分稳定氧化锆热障涂层:传统涂层、纳米团聚粉末制备的纳米涂层和空心球粉末制备的空心球涂层。
2.
TiO_2 coatings on carbon steel substrate were fabricated by air plasma spraying.
700℃、1000℃、1200℃下对纳米二氧化钛(TiO_2)粉末进行煅烧,利用大气等离子喷涂(APS)在Q235基体上制备氧化钛纳米结构涂层。
3.
A nanostructured thermal barrier coating is prepared by air plasma spraying using the 8wt% Y_2O_3 partially stabilized zirconia nano-powder with an average grain size of 40 nm.
采用大气等离子喷涂制备了纳米结构氧化钇稳定的氧化锆热障涂层。
4) atmospheric plasma spray
大气等离子喷涂
1.
Wear resistance of TiB_2-316L stainless steel matrix composite coatings deposited by atmospheric plasma spraying;
大气等离子喷涂TiB_2-316L不锈钢基复合涂层及其耐磨性能
5) atmospheric plasma spraying
大气等离子喷涂
1.
HA coatings were deposited onto Ti6Al4V substrate by microplasma spraying (MPS) as well as by atmospheric plasma spraying (APS) in this research.
本文采用微束等离子喷涂的方法在Ti6Al4V基体上制备HA涂层,并与大气等离子喷涂(APS)的HA涂层相对比。
2.
Hydroxyapatite (HA) coating, HA-ZrO_2 graded coatings, HA/ZrO_2 intermediate coatings were deposited onto Ti-6Al-4V substrate by atmospheric plasma spraying (APS) and HA+ZrO_2 composite coatings were produced by micro-plasma spraying (MPS) in this study.
在Ti-6Al-4V基体上,采用大气等离子喷涂(APS)方法分别制备了羟基磷灰石(HA)涂层、HA-ZrO_2梯度涂层、HA/ZrO_2过渡涂层;采用微束等离子喷涂(MPS)方法制备了HA+ZrO_2复合涂层。
3.
TiO2 coatings were produced by atmospheric plasma spraying system.
采用大气等离子喷涂方法制备TiO2涂层,研究氢气流量的变化对TiO2涂层的显微结构、相结构以及导电性的影响。
6) plasma spraying
等离子喷涂
1.
Microstructure and property of Al_(65)Cu_(23)Fe_(12) coating prepared by plasma spraying;
等离子喷涂Al_(65)Cu_(23)Fe_(12)涂层的组织与性能研究
2.
Forming characters of Fe_(80)P_(13)C_7 amorphous coating fabricated by bar material plasma spraying;
棒材等离子喷涂法制备Fe_(80)P_(13)C_7非晶态合金涂层的成形特征
3.
Studying of Reactive Plasma Spraying TiN-Al_3Ti-Al Composite Coating;
反应等离子喷涂TiN-Al_3Ti-Al复相陶瓷涂层的研究
补充资料:高压无空气喷涂
分子式:
CAS号:
性质:以压缩空气(也可用电动机或油泵)作动力,驱动高压泵将涂料吸入,并加压至7.5~30MPa,通过高压软管、喷枪,最后经一个特殊的喷嘴喷出,此时,涂料突然从高压降至大气常压,体积剧烈膨胀,涂料即雾化成极细小的液滴,并飞向被涂物表面,形成均匀的涂膜。由于涂料的增压并没有使用压缩空气,而是靠直接对涂料加压而达到的,故称为高压无空气喷涂,简称无气喷涂。它有以下特点:涂料中无压缩空气,消除了压缩空气带入的水分、油分和其他杂质的弊病;一次喷涂可达到较厚涂膜(可达300μm);喷涂扇面可宽达300~500mm,流量为500~3000ml/min,喷涂速率达200~400m2/h。适用于船舶、机械设备、锅炉、汽车、桥梁、路标及家具等方面的大面积施工。
CAS号:
性质:以压缩空气(也可用电动机或油泵)作动力,驱动高压泵将涂料吸入,并加压至7.5~30MPa,通过高压软管、喷枪,最后经一个特殊的喷嘴喷出,此时,涂料突然从高压降至大气常压,体积剧烈膨胀,涂料即雾化成极细小的液滴,并飞向被涂物表面,形成均匀的涂膜。由于涂料的增压并没有使用压缩空气,而是靠直接对涂料加压而达到的,故称为高压无空气喷涂,简称无气喷涂。它有以下特点:涂料中无压缩空气,消除了压缩空气带入的水分、油分和其他杂质的弊病;一次喷涂可达到较厚涂膜(可达300μm);喷涂扇面可宽达300~500mm,流量为500~3000ml/min,喷涂速率达200~400m2/h。适用于船舶、机械设备、锅炉、汽车、桥梁、路标及家具等方面的大面积施工。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条