ÐÕÃû |
º«ÈªÈª |
ÐÔ±ð |
ÄÐ |
|
³öÉúÄêÔÂ |
1988.10
|
|
|
ѧÀú |
²©Ê¿Ñо¿Éú |
ѧλ |
²©Ê¿ |
רҵ¼¼ÊõÖ°Îñ¼°Èε¼Ê¦Çé¿ö |
½ÌÊÚ¡¢²©Ê¿Ñо¿Éúµ¼Ê¦ |
ËùÔÚÒ»¼¶Ñ§¿ÆÃû³Æ |
»úе¹¤³Ì |
ËùÔÚ¶þ¼¶Ñ§¿ÆÃû³Æ |
|
|
ѧÊõÉí·Ý
ɽ¶«Ê¡ÓÅÐãÇàÄê»ù½ð»ñµÃÕß¡¢Æë³ÇàÄêѧÕß
ѧÊõ¼æÖ°
¼æÈÎɽ¶«Ê¡»îÈûнðÊô²ÄÁϹ¤³ÌÑо¿ÖÐÐĸ±Ö÷ÈΡ¢¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðί»úеѧ¿ÆͬÐÐÆÀÒéר¼Ò¡¢ÖйúÓÐÉ«½ðÊôѧ»áÔö²ÄÖÆÔìרί»áίԱ¡¢ SCIÆÚ¿¯¡¶Manufacturing Letters¡·±àί¡¢¡¶Additive Manufacturing Frontiers¡·ÇàÄê±àί
¹úÄÚÍâѧϰºÍ¹¤×÷¾Àú
2007.09¨C2011.06£¬Â³¶«´óѧ£¬»úеÉè¼ÆÖÆÔì¼°Æä×Ô¶¯»¯×¨Òµ£¬Ñ§Ê¿Ñ§Î»
2011.09¨C2014.06£¬¸Û°Ä±¦°Â66369£¬»úеµç×Ó¹¤³Ìרҵ£¬Ë¶Ê¿Ñ§Î»
2014.10¨C2017.09£¬Ó¢¹ú¿¨µÏ·ò´óѧ£¬ÏȽøÖÆÔ칤³Ìרҵ£¬²©Ê¿Ñ§Î»
2017.06¨C2017.08£¬ ±ÈÀûʱ³ãë´óѧ£¬·ÃÎÊѧÕß
2017.08¨C2020.03£¬ Ó¢¹ú¿¨µÏ·ò´óѧ£¬ÖúÀíÑо¿Ô±
2019.04¨CÖÁ½ñ£¬¸Û°Ä±¦°Â66369£¬½ÌÊÚ¡¢²©Ê¿Ñо¿Éúµ¼Ê¦
Ö÷½²¿Î³Ì
¡¶»úеÖÆͼ¡·¡¢¡¶Ôö²ÄÖÆÔì¡·¡¢¡¶×¨ÒµÓ¢Óï¡·¡¢¡¶·ÛÄ©Ò±½ðѧ¡·
Ñо¿ÁìÓò
ΧÈƺ½¿Õº½Ìì¡¢¹ú·À×°±¸ÖØ´óÐèÇ󣬿ªÕ¹¼¤¹âÔö²ÄÖÆÔ죨½ðÊô3D´òÓ¡£©µÄ¸ßÐÔÄܽðÊô²ÄÁÏ¿ª·¢¡¢³¬½á¹¹Éè¼ÆÓë4D´òÓ¡¡¢Ôö²ÄÖÆÔì×°±¸Ñз¢µÈ£¬Ö÷Òª°üÀ¨£º
1. ¸ßÐÔÄÜÄø»ù¸ßκϽ𡢸´ºÏ²ÄÁÏÖÇÄÜÉè¼ÆÓë¿ØÐοØÐÔ
2. ³¬²ÄÁÏ¡¢³¬½á¹¹Éè¼ÆÓë4D´òÓ¡
3. ½ðÊôÔö²ÄÖÆÔì×°±¸Ñз¢¡ªÆÌ·ÛÔÚÏß¼à¿Ø
³Ðµ£¿ÆÑÐÏîÄ¿Çé¿ö
[1] ¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÇàÄêÏîÄ¿£¬30Íò£¬2021¨C2023£¬Ö÷³Ö
[2] ¹ú·À173¼Æ»®¼¼ÊõÁìÓò»ù½ð¿ÎÌ⣬60Íò£¬2022-2025£¬Ö÷³Ö
[3] ɽ¶«Ê¡ÓÅÐãÇàÄê»ù½ðÏîÄ¿£¬50ÍòÔª£¬2024-2026£¬Ö÷³Ö
[4] ɽ¶«Ê¡ÖØ´ó»ù´¡Ñо¿ÏîÄ¿¿ÎÌ⣬75Íò£¬2023-2025£¬Ö÷³Ö
[5] ɽ¶«Ê¡ÖØ´ó¿Æ¼¼´´Ð¹¤³Ì¿ÎÌ⣬20Íò£¬2021-2024£¬Ö÷³Ö
½üÆÚÖ÷ÒªµÄ´ú±íÐÔÂÛÎÄ¡¢Öø×÷¡¢×¨Àû
·¢±íÔö²ÄÖÆÔìÏà¹ØSCIѧÊõÂÛÎÄ50Óàƪ£¬ÊÚȨ·¢Ã÷רÀû5Ï±àÖÆÔö²ÄÖÆÔìÍÅÌå±ê×¼1ÏÆäÖÐ5ƪ´ú±íÐÔÂÛÎÄ (* ΪͨѶ×÷Õߣ¬½üÎåÄê)ÈçÏ£¬È«²¿ÂÛÎijɹû²Î¿¼ResearchGate ¼°Google Scholar¡£
https://www.researchgate.net/profile/Quanquan_Han/publications
https://scholar.google.co.uk/citations?user=iqsjAwYAAAAJ&hl=en
[1] Quanquan Han *, Yuchen Gu, Rossitza Setchi*, Franck Lacan, Richard Johnston, Sam L. Evans, and Shoufeng Yang*. "Additive manufacturing of high-strength crack-free Ni-based Hastelloy X superalloy." Additive Manufacturing 30 (2019): 100919.
[2] Quanquan Han*, Yuchen Gu*, Jun Huang, Liqiao Wang*, Kenny WQ Low, Qixiang Feng, Yingyue Yin*, and Rossitza Setchi. "Selective laser melting of Hastelloy X nanocomposite: Effects of TiC reinforcement on crack elimination and strength improvement." Composites Part B: Engineering 202 (2020): 108442.
[3] Quanquan Han, Yanquan Geng, Rossitza Setchi*, Franck Lacan, Dongdong Gu and Sam L. Evans. ¡°Macro and nanoscale wear behaviour of Al-Al2O3 nanocomposites fabricated by selective laser melting¡±. Composites Part B: Engineering 127 (2017): 26-35.
[4] Quanquan Han*, Heng Gu, Shwe Soe*, Rossi Setchi, Franck Lacan, Jacob Hill. ¡°Manufacturability of AlSi10Mg overhang structures fabricated by laser powder bed fusion¡±. Materials and Design 160 (2018): 108¨C1095.
[5] Quanquan Han*, Yuchen Gu, Liqiao Wang*, Qixiang Feng, Heng Gu, Richard Johnston, and Rossitza Setchi. "Effects of TiC content on microstructure and mechanical properties of nickel-based hastelloy X nanocomposites manufactured by selective laser melting." Materials Science and Engineering: A 796 (2020): 140008.
ÊÚȨ·¢Ã÷רÀû£º
[1] º«ÈªÈª£¬ÑîÊ¥îÈ£¬ÕÅÕñ»ª£¬ÒüåÔÂ. ÊÊÓÚÏû³ý¼¤¹âÑ¡ÇøÈÛ»¯³ÉÐÎÈÈÁÑÎƵĹþÊϺϽ𼰷½·¨ÓëÓ¦ÓÃ. רÀûºÅ£º202010095132.2.
[2] º«ÈªÈª£¬ÕÅÕñ»ª£¬¸ß½¨£¬ÑîÊ¥îÈ. Ò»ÖÖGH3230Äø»ù¸ßκϽð²ÄÁϼ°ÆäÏû³ý¼¤¹âÑ¡ÇøÈÛ»¯³ÉÐÎ΢ÁÑÎƵķ½·¨ÓëÓ¦ÓÃ. רÀûºÅ£º202110281917.3.
[3] º«ÈªÈª¡¢¸ß½¨¡¢ÕÅÕñ»ª¡¢ÑîÊ¥îÈ. Ò»ÖÖʵÏÖÅ×¹âÒº´ÓתÖá´¦µÎÂäµÄÄ¥Å×Í·¡¢½ðÏà»ú¼°·½·¨. רÀûºÅ£ºZL202110038876.5.
[4] º«ÈªÈª£¬¸ß½¨£¬ÕÅÕñ»ª£¬ÁõÖÒéó. Äø»ùºÏ½ð·ÛÄ©¼°ÆäÖƱ¸·½·¨ºÍÓ¦ÓÃ. רÀûºÅ£ºZL202110909700.2
[5] º«ÈªÈª£¬ÕÅÕñ»ª£¬ÁõÖÒé󣬸߽¨£¬ÒüåÔ£¬ÑîÊ¥îÈ.Ò»ÖÖ¼¤¹âÑ¡ÇøÈÛ»¯¹ý³ÌÖлù°åÊÜÁ¦Çé¿öÔÚÏß¼à²â·½·¨.רÀûºÅ£ºZL202210074310.2
»ñ½±ÏîÄ¿
1. Ê×½ìɽ¶«Ê¡Ð²ÄÁÏ´´Ð´´Òµ´óÈüÈýµÈ½±£¬2020Äê
2. ÄÏÍþ¶ûÊ¿»úе¹¤³Ìʦѧ»áDavid Douglas½±£¬2017Äê
3. ¸Û°Ä±¦°Â66369ÓÅÐã˶ʿѧλÂÛÎÄ£¬2015Äê
ÁªÏµ·½Ê½
µØÖ·£ºÉ½¶«Ê¡¼ÃÄÏÊоʮ·17923ºÅ¸Û°Ä±¦°Â66369ǧ·ðɽУÇø¸Û°Ä±¦°Â66369
Óʱࣺ250061
ÓÊÏ䣺hanquanquan@sdu.edu.cn