北京快三

  • 服装工程

苏云

服装舒适性与功能;智能服装设计与开发;服装人体科学研究

suyun,boshi,meiguoaihehuazhoulidaxuefangwenxuezhe,congshi“ren-fuzhuang-huanjing”zhijianreshichuandidejichuyanjiu,bingkaizhanlereshichuandishuzhimoxingzaihuozaifengxianpinggu、zhinengyufanghufuyanfayijirentianquanfanghufangmiandeyingyongyanjiu。chenggongruxuan“shanghaishiqingniankejiyingcaiyangfanjihua”、“di20jiechenweijiyouxiulunwenjiang”、“2019nianhengyijijinyouxiuxueshulunwenerdengjiang”、 “《fangzhixuebao》2019nianduyouxiulunwenjiang”、“beijingkuaisankaijiangjieguoxueshuzhixing”deng。shouyaojicanjiaguoneiwaixueshuhuiyi10ci,huodeyouxiuxueshulunwenjiang5xiang。leijifabiaolunwen40yupian,baokuonature communications、acs applied materials &interfaces、international journal of heat & mass transfer、applied thermal engineering、building and environment、textile research journaldengxueshuqikanshangfabiaosci/sscishoululunwen24pian(diyizuozhe/tongxunzuozhelunwen20pian)。shenqingguoneifamingzhuanli5xiang(yishouquan2xiang),chubanyingwenhezhushuji3zhangjie。lingwai,zhuchikeyanxiangmu6xiang,canyuduoxiangguojiaji、shengbuji、jungongdengkeyanxiangmudeyanjiugongzuo。

荣誉及获奖情况:

北京快三1.《fangzhixuebao》2019nianduyouxiulunwenjiang, fangzhixuebaozazhishe.

2. zhongguofangzhigongchengxiehui,di20jiechenweijiyouxiulunwenjiang,2019.

3. zhongguohuaxuexianweigongyexiehui,hengyijijinyouxiuxueshulunwenerdengjiang,2019.

4. zhongguofangzhigongchengxiehui,fuzhuanggongyexiehuiyouxiuxueshulunwenerdengjiang,2019.

5. 2018nianshanghaishiyouxiubiyesheng.

6. 2018nianbeijingkuaisankaijiangjieguoyouxiuboshilunwen.

7. zhongguohuaxuexianweigongyexiehui,hengyijijinyouxiuxueshulunwenjiang,2017.

北京快三8. zhongguofangzhigongchengxiehui,di17jiechenweijiyouxiulunwenjiang,2016.

 

近几年担任的科研项目:

北京快三1. shanghaishiqingniankejiyingcaiyangfanjihua,2019.5-2022.4,zhuchi

2. jiaoyuburenwenshehuikexueyanjiuqingnianjijin,2020.1-2022.12,zhuchi

北京快三3. jiefangjunbudui,2018.9-2018.11,zhuchi

4. zhongyanggaoxiaojibenkeyanyewufeizhuanxiangzijinziyoutansuoxiangmu(ligongke),2019.1- 2021.12,zhuchi

北京快三5. shanghaishigaoxingnengxianweifuhecailiaoxietongchuangxinzhongxinkaifangketi,2019.6-2020.5,zhuchi

6. guojiazirankexuejijinmianshangxiangmu,2016.3-2019.12,canyu

7. shanghaizirankexuejijin,2017.5-2020.4,canyu

8. guojiadianwangyanjiuyuan,2018.6-2019.6,canyu

北京快三9. bosidenggufenyouxiangongsi,2018.6-2019.6,canyu

 

研究成果:

北京快三1. yun su, wen zhu, miao tian, et al. intelligent bidirectional thermal regulation of phase change material incorporated in thermal protective clothing. applied thermal engineering, 2020, 174: 115340.

北京快三2. yun su, jie yang, rui li, et al. experimental study of moisture role and heat transfer in thermal insulation fabric against hot surface contact. international journal of thermal sciences, 2020: 1-11.

3. yun su, rui li, guowen song, et al. modeling steam heat transfer in thermal protective clothing under hot steam exposure. international journal of heat & mass transfer, 2018, 120 :818-829.

北京快三4. yun su, jingxian xu, zhongxiang lei, et al. numerical study on effect of thermal regulation performance of winter uniform on thermal responses of high school student. building and environment, 2018, 40: 43-54.

北京快三5. yun su, jiazhen he, jun li. modeling the transmitted and stored energy in multilayer protective clothing under low-level radiant exposure. applied thermal engineering, 2016, 93: 1295-1303.

北京快三6. yun su, jie yang, guowen song, et al. development of a numerical model to predict physiological strain of firefighter in fire hazard. scientific reports, 2018, 8 (3628): 1-12.

北京快三7. yun su, r li, j yang, et al. developing a test device to analyze heat transfer through firefighter protective clothing. international journal of thermal sciences, 2019, 138: 1-11.

北京快三8. yun su, jiazhen he, jun li. an improved model to analyze radiative heat transfer in flame-resistant fabrics exposed to low-level. textile research journal, 2017, 87(16): 1953-1967.

9. yun su, jiazhen he, jun li. a model of heat transfer in firefighting protective clothing during compression after radiant heat exposure. journal of industrial textiles, 2016, 47(8): 2128-2152.

10. yun su, jun li. analyzing steam transfer though various flame-retardant fabric assemblies in radiant heat exposure. journal of industrial textiles, 2016, 47(5): 853-869.

北京快三11. yun su, jun li. development of a test device to characterize thermal protective performance of fabrics against hot steam and thermal radiation. measurement science and technology, 2016, 27 (12) :125904.

北京快三12. yun su, jiazhen he, jun li. numerical simulation of heat transfer in protective clothing with various heat exposure distances. the journal of the textile institute, 2016, 108 (8) :1412-1420.

北京快三13. yun su, yunyi wang, jun li. evaluation method for thermal protection of firefighters’ clothing in high-temperature and high-humidity condition: a review. international journal of clothing science and technology, 2016, 28 (4) :429-448.

14. yun su, yunyi wang, jun li. effect of air gap thickness on thermal protection of firefighter’s protective clothing against hot steam and thermal radiation. fibers and polymers, 2017, 18 (3) :582-589.

15. yun su, jie yang, rui li, et al.  effect of compression on thermal protection of firefighting protective clothing under flame exposure[j]. fire and materials, 2019, 43(7): 802-810.

16. yun su, jun li, guowen song. the effect of moisture content within multilayer protective clothing on protection from radiation and steam. international journal of occupational safety and ergonomics, 2017, 24 (2) :1-36.

北京快三17. yun su, jie yang, rui li, guowen song and jun li. effect of compression on contact heat transfer in thermal protective clothing under different moisture contents[j]. clothing and textiles research journal, 2019: 0887302x19863104.

18. yun su, rui li, jie yang, et al. influence of transport properties of laminated membrane-fabric on thermal protective performance against steam hazard[j]. fibers and polymers, 2019, 20(11): 2433-2442.

19. yun su, jun li, xianghui zhang. a coupled model for heat and moisture transport simulation in porous materials exposed to thermal radiation[j]. transport in porous media, 2019: 1-17.

北京快三20. xiao r, hou c, yang w, yun su, et al. infrared-radiation-enhanced nanofiber membrane for sky radiative cooling of the human body[j]. acs applied materials & interfaces, 2019, 11(47): 44673-44681.

21.yang w, gong w, hou c, yun su, et al. all-fiber tribo-ferroelectric synergistic electronics with high thermal-moisture stability and comfortability[j]. nature communications, 2019, 10(1): 1-10.

北京快三22. jie yang, yun su, guowen song, et al. a new approach to predict heat stress and skin burn of firefighter under low-level thermal radiation. international journal of thermal sciences, (2019)145, 106021.

23. yun su, rui li, jie yang, et al. effect of fabric deformation on thermal protective performance of clothing in a cylindrical configuration, in homeland security and public safety: research, applications and standards, ed. p. mattson and j. marshall (west conshohocken, pa: astm international, 2019), 271-285.

24. suyun, wangyunyi, lijun. xiaofangfuyixiakongqicengrechuandijizhiyanjiujinzhan[j]. fangzhixuebao, 2016, 37(1):167-172.

25. suyun, lijun. huozaihuanjingxiafangshuitouqicengduixiaofangfureshifanghuxingnengdeyingxiang[j]. fangzhixuebao, 2017, 38(2):152-158.

26. suyun, yangjie, lirui, deng. refushebaoluxiaxiaofangyuandeshenglifanyingjipifushaoshangyuce[j]. fangzhixuebao, 2019, 40(02):153-158.

 

近几年发表的论著:

北京快三1. guowen song, yun su. fibrous materials for thermal protection (book chapter),wiley group,2020.

2. yun su, guowen song. thermal stored energy and protective performance (book chapter),taylor & francis,8214zi,2019.

北京快三3. yun su, guowen song. numerical modelling for performance (book chapter),taylor & francis,2019.

 

专利:

北京快三1. yizhongkediaopeiyixiatongfengqiliudehuwaifuzhuangjiegoujigouchengfangfa, 2016.06,zhongguo,cn104705866.

2. zhiwurefanghuxingnengcepingzhuangzhi,2018.04,zhongguo,cn 105259201.

 

国际交流与合作: 美国爱荷华州立大学访问学者

其他信息:

E-MAIL: suyun150@newzy.net

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