1) induction cladding
感应熔涂
1.
The microstructure of Ni-base coating by high-frequency induction cladding was analyzed.
研究分析了Ni60自熔性合金高频感应熔涂组织。
2) medium-frequency induction cladding
中频感应熔涂
3) induction cladding with cold pressing
冷敷感应熔涂
1.
The resistivity of coating with cold pressing was measured,and the heating process of induction cladding with cold pressing was analyzed.
在测试和研究冷敷合金预涂层电阻基础上,分析了冷敷感应熔涂加热过程的探讨,对外圆熔涂感应器的设计提出了新的要求。
4) inductive melting
感应熔炼
1.
By applying the cold crucible inductive melting(CCIM) to TiAl-based alloys,the qualities of the melt are able to be improved.
冷坩埚感应熔炼技术提高了钛铝基合金的熔体质量。
5) induction cladding
感应熔覆
1.
Microstructure and forming mechanism of TiC/Ni composite coating in situ synthesized by induction cladding;
感应熔覆原位自生TiC/Ni基复合涂层组织和形成机理
2.
Ni-based composite coating reinforced by TiC particle was fabricated on a substrate of 16Mn steel by induction cladding of the Ni60A,Ti and C alloy powders.
以Ni60A、钛粉和石墨粉为原料,采用高频感应熔覆技术,在16Mn钢表面原位合成了TiC颗粒增强镍基复合材料涂层。
3.
TiC particle reinforced metal matrix composite coating was fabricated on the substrate of 16Mn steel by induction cladding using Ni60A,titanium and carbon powder blends.
以N i60A、Ti粉和石墨粉为原料,利用感应熔覆技术在16Mn钢基材表面制备出原位自生TiC颗粒增强金属基复合涂层,分析了涂层的显微组织,在常温干滑动摩擦条件下评价了涂层的耐磨性能。
6) induction cladding
感应熔敷
1.
Microstructure, friction and wear properties of micronanostructured WC/Ni-based metallic coating by induction cladding;
感应熔敷WC/Ni基复合涂层的组织和性能
2.
A micro-nanostructured WC composite coating with agglomerate nanostructured WC particles and micron WC as the reinforcing phase was fabricated on Q235 steel by induction cladding with Ni60A、micron and nanostructured WC alloy powders as the raw material.
以Ni60A、微米和纳米碳化钨粉末为原料,利用感应熔敷技术在Q235钢表面制得以微纳米碳化钨颗粒为增强相的镍基复合材料耐磨涂层,利用SEM、XRD和EDS分析了该涂层的显微组织,涂层与基体之间为完全冶金结合;在干滑动磨损试验条件下具有较好的耐磨性。
3.
To improve the dry wear resistance of 16Mn steel, a wear resistance TiC reinforced metal matrix composite coating was fabricated on 16Mn steel subatrate by induction cladding using the Ni60, titanium and carbon alloy powders.
为了提高16Mn钢的干滑动磨损耐磨性能,以Ni60、钛粉和石墨粉为原料对16Mn钢表面进行感应熔敷处理,制备出以TiC颗粒为增强相的原位自生复合涂层,利用金相、SEM、XRD等技术分析了涂层的显微组织,在室温干滑动磨损试验条件下测试了涂层的耐磨性。
补充资料:难熔金属碳化物涂层石墨管
分子式:
CAS号:
性质:用难熔金属碳化物对石墨管进行局部或整体涂覆,克服石墨管多孔易吸附、透气等不利性能。局部涂层法是把碳化锆、炭化钨等悬浮水溶液从进样孔滴入石墨管,然后进行加热处理。整体涂覆采用浸渍法,将石墨管置于上述悬浮液中数小时后,取出干燥加热处理。处理过的石墨管表面可形成致密的碳化物涂层。
CAS号:
性质:用难熔金属碳化物对石墨管进行局部或整体涂覆,克服石墨管多孔易吸附、透气等不利性能。局部涂层法是把碳化锆、炭化钨等悬浮水溶液从进样孔滴入石墨管,然后进行加热处理。整体涂覆采用浸渍法,将石墨管置于上述悬浮液中数小时后,取出干燥加热处理。处理过的石墨管表面可形成致密的碳化物涂层。
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