SUN Ronglu 孙荣禄

The publisher:管理员Delivery time:2016-08-25Views:383

 

SUN Ronglu

Professor/ master unripe adviser, Dr

Office telephone:+86-22-83955671
Fax: +86-22-83955258

email: rlsun@tiangong.edu.cn

 

Education background:  
September 1997 - January 2001 Harbin industrial university doctoral student
September 1993 - March 1997 Harbin industrial university master
September 1983 - July 1987 Jiamusi engineering undergraduate students

 

Work experience:

05, 2002 - present Tianjin industry university professor
sep 1987-1993 Jiamusi, an associate professor at college of engineering

 

Research areas:    
The surface modification of metal materials, welding, laser material processing

 

The main courses taught:              
Undergraduate courses: engineering materials and shaping technology
master's courses: surface engineering

 

The main academic achievements, awards and honors:
1. Natural science prizes in tianjin in 2005 (no. : 2005 zr - 3-014 - R1) : laser rapid solidification TiC - Ni microstructure and wear resistance of composite coating; No. 1

 

Teaching and scientific research projects:            
1. The national natural science fund project (project number: 51371125) : in situ titanium alloy laser cladding authigenic CrxSy/Ni base self-lubricating coating and the atomic oxygen erosion resistance research; Start-stop time: January 2014 - December 2017; Project director
2. Tianjin application foundation and research in cutting-edge technologies plan key projects (project number: 11 czdjc21400) : wear resistance of laser cladding on titanium alloys - self-lubricating coating; In 2011-2014; Project director
3.the ministry of education doctoral fund (project number: 20091201110002) : laser cladding CrxSy/Ni base self-lubricating coating and vacuum friction and wear performance study; Start-stop time: 2010-2013;
4. The project manager of tianjin natural science fund project (project number: 043603211) : wear-resisting, antifriction aluminum alloy surface laser cladding coating technology research; Start-stop time: 2004-2006; The project leader

 

Published articles, monographs (representative) :        
[1] rong-lu sun, NiuWei, yi-wen lei, b. TC4 titanium alloy laser cladding NiCrBSi Ni/MoS2 coating organization and friction and wear properties [J]. Journal of materials, heat treatment, 2014, 35 (6) : 165-165.
[2] rong-lu sun, NiuWei yi-wen lei, b., laser cladding in situ authigenic CrxSy/Ni base organization and friction and wear properties of composite coating [J]. China laser, 2013, 40 (10) : 1003005. (EI: 20134917058178)
[3] Song Liping, rong-lu sun, GuWen, Duan Lilei. 2.25 mo Cr - 1-0.25 V steel weld impact performance and microstructure analysis [J]. Journal of welding, 2013, 12:105-108-6. (EI: 20140517247854) [4] rong-lu sun, NiuWei yi-wen lei, b., laser cladding on titanium alloy surface TiB2 - TiC/Ni composite coating vacuum friction and wear properties of [J]. Journal of materials, heat treatment, 2012, 33 (5) : 131-135. (EI: 20122715214916)
[5] rong-lu sun, NiuWei, yi-wen lei. Magnesium alloy laser cladding on the surface of Al - Si alloy coating organization and abrasion resistance [J]. Journal of materials, heat treatment, 2012, 11:143-147. (EI: 20130315910325)
[6] NiuWei, rong-lu sun. H - BN content on the laser cladding self-lubricating coating microstructure and wear performance [J]. The influence of the laser, the preceding 2011:126-132. [7] Sun R L, Lei Y W, Niu W. Laser clad TiC reinforced NiCrBSi composite coatings on Ti–6Al–4V alloy using a CW CO2 laser [J]. Surface and Coatings Technology, 2009, 203 (10-11): 1395-1399. (SCI411AD; EI090511878071 )
[8] Sun R L, Lei Y W, Niu W. Laser clad Cr3C2–Ni composite coating on titanium alloys[J]. Surface Engineering, 2009, 25(3): 206-210. (SCI421IL; EI20091612033695)
[9] yong-qiang guo, rong-lu sun, yi-wen lei, Guo Xihua. Laser cladding in situ authigenic TiC particle microstructure and properties of Ni base composite coating [J]. Journal of materials, heat treatment, 2009 01:178-181, 191.
[10]Sun RL, Lei YW. Microstructure and hardness of laser clad SiCp-Al composite coatings on Al alloys[J]. Materials Letters, 2008, 62(17-18):3272-3275. (SCI:314AI, EI: 20082011253192 )
[11] NiuWei rong-lu sun, yi-wen lei, Guo Xihua. Microstructure and formation mechanism of titanium matrix composites coating on Ti 6 al 4 v by laser cladding [J]. China laser, 2008, 11:1756-1759. (EI: 20085011781063)
[12] rong-lu sun, David lau, NiuWei, yi-wen lei. Titanium alloy diluting the micro structure of the laser cladding layer of NiCrBSiC [J]. China laser, 2008, 11:1741-1745. (EI: 20085011781060)
[13] rong-lu sun, NiuWei, cheng-yang wang. Laser cladding on titanium alloy surface TiN - Ni base alloy Microstructure and wear properties of composite coating [J]. Rare metal materials and engineering, 2007, 4 (1) : 7-10. (SCI9445860; EI071610553291)
[14] rong-lu sun, yi-wen lei, b, yun-shan wang, Yang Chen. SiCp reinforced aluminum matrix composite tissue and laser cladding layer [J]. Journal of journal of materials, heat treatment, 2007, 12:138-141. (EI: 20074610915377)
[15] rong-lu sun, cheng-yang wang. TiN metal ceramic coating microstructure of laser cladding [J]. Journal of tianjin university, 2007, 11:1291-1294. (EI: 20080711099632)
[16] rong-lu sun, xian-jin Yang. TiC M TC4 titanium alloy laser cladding coating organization and wear-resisting performance study [J]. Journal of materials, heat treatment, 2006,01:96-99, 137.
[17] rong-lu sun, NiuWei Liu Lu. Basal material of NiCrBSiC alloy laser cladding layer, the abrasion performance of the organization and influence [J]. Journal of materials engineering, 2006,09:45-48. (EI: 20064710259112)
[18] rong-lu sun, xian-jin Yang. The surface of 45 # steel laser cladding NiCrBSi organization and friction and wear properties of coating [J]. Journal of materials engineering, 2005 preceding: 20-23 and 27. (EI: 2005389375236)
[19] rong-lu sun, Lv Weixin, xian-jin Yang. Laser cladding TiC - NiCrBSi metal ceramic coating in the morphology and distribution of the TiC phase characteristics [J]. Journal of silicate, 2005, 12:1448-1448. (EI: 2006129772385)