1) Plasma-MIG Welding
Plasma-MIG焊接
1.
Study of Droplet Transfer and Formation s Experiment of Welding Joint in Plasma-MIG Welding;
Plasma-MIG焊接熔滴过渡及焊缝成形的实验研究
3) MIG welding
MIG焊接
1.
Study on MIG welding process of medium thickness 7A05 aluminum alloy
中厚度7A05铝合金MIG焊接工艺研究
2.
In the paper, MIG welding input is approximately treated as 3-dimensional heat sources along three axes.
建立了工件任意一移动点热源作用下温度场的瞬态模型,将MIG焊接热输入近似处理为沿3个坐标轴的三维串热源。
3.
The filling wire TIG and MIG welding tests were carried out on the thickness of 8.
试验结果表明,填丝TIG焊缝成形良好;MIG焊接时有飞溅现象,焊缝成形不及TIG均匀。
4) metal inert-gas welded joints
MIG焊接头
6) hyperbaric MIG welding
高压MIG焊接
1.
The significance and difficulty of deepwater welding applied in offshore engineering were described as well as several new technologies such as hyperbaric TIG welding, hyperbaric MIG welding and friction stitch welding were introduced.
在描述海洋工程深水焊接的意义与困难的基础之上,系统介绍了应用于深水的高压TIG焊接、高压MIG焊接和摩擦叠焊,对以空气为加压气体的高压TIG焊接、外加纵向磁场强化高压脉冲MIG焊接熔滴过渡的技术方案与实验系统设计、水下摩擦叠焊实验装置方案设计等做了研究工作。
2.
This paper introduces hyperbaric TIG welding and the research works finished by BIPT Underwater Joining Group,especially several new technologies such as hyperbaric MIG welding,friction stir welding,friction stitch welding and radial friction welding,which can satisfy the future demands of deepwater engineering.
介绍了高压TIG焊接技术以及北京石油化工学院水下连接研究小组在该领域取得的成果,特别针对深水应用的要求,介绍了几种具备较好应用前景的新技术,即高压MIG焊接、搅拌摩擦焊接、摩擦叠焊和径向摩擦焊接,最后提出了发展我国海洋工程连接技术的若干建议。
补充资料:platelet rich plasma
分子式:
CAS号:
性质:为新鲜血液经低速离心制备而成。将采集的全血在室温下于4~6h内以27.5~37.5转/min低速离心15~20min(或1220转/min离心5min),使红细胞、白细胞基本下沉,由于血小板比重轻,大部分保留在上层血浆中,分离出上层血浆,即为富血小板血浆,可获得全血中70%以上血小板。200ml全血所制备的富血小板血浆可采集2.5~1010血小板。主要用于各种原因所致的血小板减少症和血小板功能缺陷患者出血的预防和治疗。
CAS号:
性质:为新鲜血液经低速离心制备而成。将采集的全血在室温下于4~6h内以27.5~37.5转/min低速离心15~20min(或1220转/min离心5min),使红细胞、白细胞基本下沉,由于血小板比重轻,大部分保留在上层血浆中,分离出上层血浆,即为富血小板血浆,可获得全血中70%以上血小板。200ml全血所制备的富血小板血浆可采集2.5~1010血小板。主要用于各种原因所致的血小板减少症和血小板功能缺陷患者出血的预防和治疗。
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