王桂龙
教授
访问次数:
基本信息
  • 教师英文名称:
    Gelon
  • 教师拼音名称:
    Wang Guilong
  • 出生日期:
    1983-05-06
  • 电子邮箱:
    guilong@sdu.edu.cn
  • 入职时间:
    2016-08-05
  • 所在单位:
    材料科学与工程学院
  • 职务:
    科研教师
  • 学历:
    研究生(博士后)
  • 办公地点:
    山东大学千佛山校区主楼807
  • 性别:
  • 联系方式:
    13791034293
  • 学位:
    工学博士学位
  • 在职信息:
    在职
  • 主要任职:
    塑性成形与模具技术研究所副书记
  • 毕业院校:
    山东大学
  • 博士生导师
  • 硕士生导师
学科:
材料科学与工程;
曾获荣誉:

2014-09-01    山东省高等学校优秀科研成果奖;
2013-06-17    山东省优秀博士学位论文;
2010-01-18    山东省科技进步一等奖;
2010-11-29    国家科技进步二等奖;
学术荣誉:

2011    学术新人奖;
教师简介

围绕汽车、家电等工业领域对节材增效、降耗减排和绿色环保的迫切需求,致力于轻量化高性能聚合物构件先进成型加工理论与技术研究,主持国家自然科学基金面上/青年基金、世界自然基金会(WWF)基金、山东省重大科技创新工程、山东省自然科学基金等国家、省部级科研课题10项,课题经费超过1500万元;入选山东大学齐鲁青年学者和青年学者未来计划;担任SCI收录期刊《Cellular Polymers》编委、SCI收录期刊《Journal of Cellular Plastics》顾问编委、SAMPE中国聚合物发泡与多孔材料专业委员会副秘书长、美国塑料工程师协会发泡专委会委员、中国机械工程学会模具制造与成型技术专业委员会委员;发表SCI收录论文100余篇,影响因子>5的论文30余篇,ESI高被引论文4篇,论文他引2000余次,H因子30;获授权发明专利15项、登记软件著作权1项;获国家科技进步二等奖1项、山东省科技进步一等奖1项和山东省优秀博士学位论文;获山东大学青年教师教学比赛一等奖和山东大学“青年教学能手”称号。

教育经历
  • 2005-9 — 2011-12
    山东大学
    材料加工工程
    工学博士学位
  • 2001-9 — 2005-7
    山东大学
    材料科学与工程
    工学学士学位
工作经历
  • 2014-3 — 2016-4
    多伦多大学机械与工业工程学院
  • 2016-8-至今
    山东大学材料科学与工程学院
    教授
  • 2012-2 — 2016-8
    山东大学机械工程学院
科研成果
论文

1.  李博. Green fabrication method of layered and open-cell polylactide foams for oil-sorption via pre-crystallization and supercritical CO2-induced melting.  JOURNAL OF SUPERCRITICAL FLUIDS,  162,  2020. 

2.  李博. Green fabrication method of layered and open-cell polylactide foams for oil-sorption via pre-crystallization and supercritical CO2-induced melting.  JOURNAL OF SUPERCRITICAL FLUIDS,  162,  2020. 

3.  史展林. Fabrication of high porosity Nanocellular polymer foams based on PMMA/PVDF blends.  materials and design,  195,  2020. 

4.  李姣. A meshless method for topology optimization of structures under multiple load cases.  Structures,  25,  173, 2020. 

5.  吴昊. A kind of special weld lines with high specific strength and elongation obtained by core-back chemical foam injection molding.  EXPRESS POLYMER LETTERS,  13,  1041, 2019. 

6.  展江湖. Review on the performances, foaming and injection molding simulation of natural fiber composites.  polymer composites,  2021. 

7.  龚洁. Fabrication of macroporous carbon monoliths with controllable structure via supercritical CO2 foaming of polyacrylonitrile.  JOURNAL OF CO2 UTILIZATION,  33,  330, 2019. 

8.  李婷婷. Thermal-Insulation, Electrical, and Mechanical Properties of Highly-Expanded PMMA/MWCNT Nanocomposite Foams Fabricated by Supercritical CO2 Foaming.  MACROMOLECULAR MATERIALS AND ENGINEERING,  304,  2019. 

9.  李婷婷. Effect of Preparation Methods on Electrical and Electromagnetic Interference Shielding Properties of PMMA/MWCNT Nanocomposites.  polymer composites,  40,  E1786, 2019. 

10.  李博. A green strategy to regulate cellular structure and crystallization of poly (lactic acid) foams based on pre-isothermal cold crystallization and CO2 foaming.  international journal of biological macromolecules,  129,  171, 2019. 

11.  李婷婷. Ultralow-threshold and efficient EMI shielding PMMA/MWCNTs composite foams with segregated conductive network and gradient cells.  EXPRESS POLYMER LETTERS,  14,  685, 2020. 

12.  张磊. Investigation on the influence of fold conformation on PLLA lamellar splaying by film crystallization in supercritical CO2.  CrystEng Comm,  22,  1459, 2020. 

13.  管延锦 , 王广春  and 林军. A meshless method for topology optimization of structures under multiple load cases.  Structures,  173, 2020. 

14.  赵国群 , 王桂龙  and 吴昊. Effects of process parameters on core-back foam injection molding process.  EXPRESS POLYMER LETTERS,  13,  390, 2019. 

15.  赵国群 , 王桂龙 , 董桂伟  and 侯俊吉. Ultra-high expansion linear polypropylene foams prepared in a semi-molten state under supercritical CO2.  JOURNAL OF SUPERCRITICAL FLUIDS,  145,  140, 2019. 

16.  赵国群 , 冯金奎 , 王桂龙  and 龚洁. Novel Method of Fabricating Free-Standing and Nitrogen-Doped 3D Hierarchically Porous Carbon Monoliths as Anodes for High-Performance Sodium-Ion Batteries by Supercritical CO2 Foaming.  ACS Applied Materials & Interfaces,  11,  9125, 2019. 

17.  赵国群 , 王桂龙  and 侯俊吉. High-expansion polypropylene foam prepared in non-crystalline state and oil adsorption performance of open-cell foam.  Journal of Colloid and Interface Science 2012,  542,  233, 2019. 

18.  董桂伟 , 赵国群  and 王桂龙. Morphology Evolution and Elimination Mechanism of Bubble Marks on Surface of Microcellular Injection-Molded Parts with Dynamic Mold Temperature Control.  industrial & engineering chemistry research,  57,  1089, 2018. 

19.  董桂伟 , 赵国群 , 王桂龙  and 牟玥. Effects of dynamic mold temperature control on melt pressure, cellular structure, and mechanical properties of microcellular injection-molded parts: An experimental study.  CELLULAR POLYMERS,  2019. 

20.  董桂伟 , 赵国群 , 管延锦  and 王桂龙. 超临界流体辅助微孔发泡注塑技术及其熔体发泡行为.  机械工程学报,  2018. 

21.  赵国群  and 王桂龙. Heating/cooling channels design for an automotive interior part and its evaluation in rapid heat cycle moldin.  Materials and design,  59,  310, 2014. 

22.  赵国群 , 王桂龙  and 管延锦. Thermal response of an electric heating rapid heat cycle molding mold and its effect on surface appearance and tensile strength of the molded part.  Journal of applied polymer science,  2013. 

23.  赵国群  and 王桂龙. Effects of cavity surface temperature on mechanical properties of specimens with and without a weld line in rapid heat cycle molding.  Materials & Design,  2013. 

24.  林军 , 管延锦 , 王桂龙  and 陈良. Flame retardancy and toughening modification of glass fiber-reinforced polycarbonate composites.  POLYMER JOURNAL,  51,  657, 2019. 

25.  王桂龙 , 赵国群  and 张爱敏. Strong and thermal-resistance glass fiber-reinforced polylactic acid (PLA) composites enabled by heat treatment.  international journal of biological macromolecules,  129,  448, 2019. 

26.  王桂龙. Effect of foam processing parameters on bubble nucleation and growth dynamics in high-pressure foam injection molding.  Chemical Engineering Science,  155,  27, 2016. 

27.  王桂龙. Research on a new variotherm injection molding technology and its application on the molding of a large LCD panel.  polymer-plastics technology and engineering,  2009. 

28.  王桂龙 , 赵国群  and 牟玥. Lightweight and tough nanocellular PP/PTFE nanocomposite foams with defect-free surfaces obtained using in situ nanofibrillation and nanocellular injection molding.  chemical engineering journal,  350,  1, 2018. 

29.  王桂龙  and 赵国群. Ultralow-Threshold and Lightweight Biodegradable Porous PLA/MWCNT with Segregated Conductive Networks for High-Performance Thermal Insulation and Electromagnetic Interference Shielding Applications.  ACS Applied Materials & Interfaces,  10,  1195, 2018. 

30.  王桂龙  and 赵国群. Injection-molded microcellular PLA/graphite nanocomposites with dramatically enhanced mechanical and electrical properties for ultra-efficient EMI shielding applications.  JOURNAL OF MATERIALS CHEMISTRY C,  6,  6847, 2018. 

31.  王桂龙 , 赵国群 , 董桂伟  and 宋立彬. Lightweight, thermally insulating, and low dielectric microcellular high-impact polystyrene (HIPS) foams fabricated by high-pressure foam injection molding with mold opening.  JOURNAL OF MATERIALS CHEMISTRY C,  6,  12294, 2018. 

32.  王桂龙  and 赵国群. Research on temperature and pressure responses in the rapid mold heating and cooling method based on annular cooling channels and electric heating.  International journal of heat and mass transfer,  116,  1192, 2018. 

33.  王桂龙 , 赵国群 , 董桂伟  and 牟玥. Lightweight, super-elastic, and thermal-sound insulation bio-based PEBA foams fabricated by high-pressure foam injection molding with mold-opening.  European Polymer Journal,  103,  68, 2018. 

34.  赵国群 , 王桂龙  and 刘继涛. Numerical and experimental investigations on polymer melt flow phenomenon in a vario-thermal mold cavity.  Journal of applied polymer science,  134,  2017. 

35.  王桂龙  and 赵国群. Role of elastic strain energy in cell nucleation of polymer foaming and its application for fabricating sub-microcellular TPU microfilms.  polymer,  119,  28, 2017. 

36.  王桂龙  and 赵国群. Ultra-tough and super thermal-insulation nanocellular PMMA/TPU.  chemical engineering journal,  325,  632, 2017. 

37.  王桂龙  and 龚鹏建. Advanced bimodal polystyrene/multi-walled carbon nanotube nanocomposite foams for thermal insulation.  CARBON,  120,  1, 2017. 

38.  赵国群 , 王桂龙 , 董桂伟  and 侯俊吉. A novel gas-assisted microcellular injection molding method for preparing lightweight foams with superior surface appearance and enhanced mechanical performance.  Materials & Design,  127,  115, 2017. 

39.  王桂龙  and 赵国群. Modelling of thermal transport through a nanocellular polymer foam: toward the generation of a new superinsulating material.  NANOSCALE,  9,  5996, 2017. 

40.  王桂龙  and 赵国群. Low-density and structure-tunable microcellular PMMA foams with improved thermal-insulation and compressive mechanical properties.  European Polymer Journal,  95,  382, 2017. 

41.  赵国群 , 王桂龙  and 张磊. Formation mechanism of porous structure in plastic parts injected by microcellular injection molding technology with variable mold temperature.  Applied thermal engineering,  114,  484, 2017. 

42.  赵国群 , 王桂龙 , 董桂伟  and 张磊. Investigation on bubble morphological evolution and plastic part surface quality of microcellular injection molding process based on a multiphase-solid coupled heat transfer model.  International journal of heat and mass transfer,  104,  1246, 2017. 

43.  王桂龙. Identification of Cell-Nucleation Mechanism in Foam Injection Molding with Gas-Counter Pressure via Mold Visualization.  AIChE Journal,  62,  4035, 2016. 

44.  王桂龙  and 赵近川. High thermal insulation and compressive strength polypropylene foams fabricated by high-pressure foam injection molding and mold opening of nano-fibrillar composites.  Materials & Design,  131,  1, 2017. 

45.  王桂龙  and Li, Xinyue. Hierarchical NiAl LDH nanotubes constructed via atomic layer deposition assisted method for high performance supercapacitors.  ELECTROCHIMICA ACTA,  255,  15, 2017. 

46.  王桂龙  and 赵国群. 快速热循环注塑技术的研究与应用.  塑性工程学报,  2009. 

47.  王桂龙. Research on optimization design of the heating/cooling channels for rapid heat cycle molding based on response surface methodology and constrained particle swarm optimization.  Expert Systems with Application,  2011. 

48.  王桂龙  and 赵国群. Experimental research on the effects of cavity surface temperature on surface appearance properties of the moulded part in rapid heat cycle moulding process.  The International Journal of Advanced Manufacturing Technology,  68,  1293, 2013. 

49.  王桂龙. Highly effective synthesis of NiO/CNT nanohybrids by atomic layer deposition for high-rate and long-life supercapacitors.  dalton transactions,  45,  13779, 2016. 

50.  王桂龙. Development and evaluation of a dynamic mold temperature control system with electric heating for variotherm injection molding.  Polymer & Polymer Composites,  2009. 

51.  赵国群 , 董桂伟  and 王桂龙. Bubble morphological evolution and surface defect formation mechanism in the microcellular foam injection molding process.  RSC advances,  5,  70032, 2015. 

52.  王桂龙  and 赵国群. Heating/cooling channels design for an automotive interior part and its evaluation in rapid heat cycle moldin.  Materials and design,  59,  310, 2014. 

53.  董桂伟 , 赵国群 , 管延锦  and 王桂龙. The Cell Forming Process of Microcellular Injection-Molded Parts.  Journal of applied polymer science,  2014. 

54.  赵国群 , 王桂龙  and 管延锦. Influence of relative low gas counter pressure on melt foaming behavior and surface quality of molded parts in microcellular injection molding process.  Journal of Cellular Plastics,  50,  415, 2014. 

55.  王桂龙. Study of the Bubble Nucleation and Growth Mechanisms in High-Pressure Foam Injection Molding through in-situ Visualization.  European Polymer Journal,  76,  2, 2016. 

56.  王桂龙  and 赵国群. Development and evaluation of a new rapid mold heating and cooling method for rapid heat cycle molding.  International journal of heat and mass transfer,  78,  99, 2014. 

57.  王桂龙  and 赵国群. Research on formation mechanisms and control of external and inner bubble morphology in microcellular injection molding.  Polymer Engineering & Science,  55,  807, 2015. 

58.  王桂龙 , 管延锦  and 赵国群. Thermal response of an electric heating rapid heat cycle molding mold and its effect on surface appearance and tensile strength of the molded part.  Journal of applied polymer science,  2013. 

59.  王桂龙  and 赵国群. Effects of cavity surface temperature on mechanical properties of specimens with and without a weld line in rapid heat cycle molding.  Materials & Design,  2013. 

60.  王桂龙. Multi-objective optimum design for heating efficiency, temperature uniformity and strength of a flat television frame mold in rapid heat cycle molding with steam heating by integrating response surface methodology and particle swarm optimization.  International Journal of Thermal Sciences,  2011. 

61.  王桂龙  and 赵国群. Research and application of a new rapid heat cycle molding with electric heating and coolant cooling to improve the surface quality of large LCD TV panel.  Polymers for Advanced Technologies,  2009. 

62.  王桂龙. Development and experimental study of a new electric-heating rapid thermal response mold for RHCM process.  Advanced Science Letters,  2011. 

63.  王桂龙. Three-dimensional thermal response and thermo-mechanical fatigue analysis for a large LCD TV frame mold in steam-assisted rapid heat cycle molding.  Fatigue & Fracture of Engineering Materials & Structures,  2010. 

64.  王桂龙. Research of thermal response simulation and mold structure optimization for two rapid heat cycle molding processes respectively with steam heating and electric heating.  Materials & Design,  2009. 

65.  王桂龙. Thermal response of an electric heating rapid heat cycle molding mold and its effect on surface appearance and tensile strength of the molded part.  Journal of applied polymer science,  2012. 

66.  王桂龙  and 赵国群. Effects of cavity surface temperature on mechanical properties of specimens with and without a weld line in rapid heat cycle molding.  Materials and design,  2012. 

67.  王桂龙. Effects of cavity surface temperature on reinforced plastic part surface appearance in rapid heat cycle moulding.  Materials and design,  2012. 

68.  王桂龙. 变模温注塑技术的研究与应用分析.  《现代化工》,  2009. 

69.  王桂龙. Research on optimum heating system design for rapid thermal response mold with electric heating based on response surface methodology and particle swarm optimization.  Journal of applied polymer science,  2010. 

70.  王桂龙. Analysis of thermal cycling efficiency and optimal design of heating/cooling systems for rapid heat cycle injection molding process.  Materials & Design,  2010. 

71.  王桂龙. 薄壁注塑制品翘曲影响因素分析与工艺优化.  中国机械工程,  2009. 

72.  王桂龙. 基于CAE的大型LCD面板变模温注塑工艺分析.  《材料工程》,  2009. 

73.  王桂龙. 蒸汽辅助快速热循环注塑技术及其模温响应模拟的研究.  《高分子材料科学与工程》,  2009. 

74.  王桂龙. 变模温注塑热响应模拟与模具结构优化.  机械工程学报,  2009. 

75.  王桂龙  and 赵国群. Fully coupled transient heat transfer and melt filling simulations in rapid heat cycle molding with steam heating.  polymer-plastics technology and engineering,  2011. 

76.  林军 , 管延锦 , 王桂龙  and 陈良. Effects of thermoplastic elastomer on the morphology and mechanical properties of glass fiber-reinforced polycarbonate/acrylonitrile-butadiene-styrene.  POLYMER ENGINEERING AND SCIENCE,  59,  E144, 2019. 

77.  王桂龙 , 赵国群 , 董桂伟  and 牟玥. Lightweight and strong microcellular injection molded PP/talc nanocomposite.  Composites Science and Technology,  168,  38, 2018. 

78.  王桂龙. Modelling of thermal transport through a nanocellular polymer foam: toward the generation of a new superinsulating material (vol 9, pg 5996, 2017).  NANOSCALE,  10,  20469, 2018. 

79.  赵近川  and 王桂龙. Development of high thermal insulation and compressive strength BPP foams using mold-opening foam injection molding with in-situ fibrillated PTFE fibers.  European Polymer Journal,  98,  1, 2018. 

80.  董桂伟 , 王桂龙  and 赵国群. Bubble morphological evolution and surface defect formation mechanism in the microcellular foam injection molding process.  RSC advances,  5,  70032, 2015. 

81.  王桂龙  and 赵国群. Heating/cooling channels design for an automotive interior part and its evaluation in rapid heat cycle moldin.  Materials and design,  59,  310, 2014. 

82.  赵国群 , 管延锦 , 王桂龙  and 董桂伟. The Cell Forming Process of Microcellular Injection-Molded Parts.  Journal of applied polymer science,  2014. 

83.  王桂龙 , 管延锦  and 赵国群. Influence of relative low gas counter pressure on melt foaming behavior and surface quality of molded parts in microcellular injection molding process.  Journal of Cellular Plastics,  50,  415, 2014. 

84.  王桂龙  and 赵国群. Effects of cavity surface temperature on mechanical properties of specimens with and without a weld line in rapid heat cycle molding.  Materials & Design,  2013. 

85.  管延锦 , 王桂龙 , 陈良  and 林军. Effects of thermoplastic elastomer on the morphology and mechanical properties of glass fiber-reinforced polycarbonate/acrylonitrile-butadiene-styrene.  POLYMER ENGINEERING AND SCIENCE,  59,  E144, 2019. 

86.  王桂龙. Modelling of thermal transport through a nanocellular polymer foam: toward the generation of a new superinsulating material (vol 9, pg 5996, 2017).  NANOSCALE,  10,  20469, 2018. 

87.  赵国群 , 董桂伟 , 宋立彬  and 王桂龙. Lightweight, thermally insulating, and low dielectric microcellular high-impact polystyrene (HIPS) foams fabricated by high-pressure foam injection molding with mold opening.  JOURNAL OF MATERIALS CHEMISTRY C,  6,  12294, 2018. 

88.  赵国群  and 王桂龙. Research on temperature and pressure responses in the rapid mold heating and cooling method based on annular cooling channels and electric heating.  International journal of heat and mass transfer,  116,  1192, 2018. 

89.  赵国群  and 王桂龙. Ultralow-Threshold and Lightweight Biodegradable Porous PLA/MWCNT with Segregated Conductive Networks for High-Performance Thermal Insulation and Electromagnetic Interference Shielding Applications.  ACS Applied Materials & Interfaces,  10,  1195, 2018. 

90.  赵国群 , 董桂伟 , 牟玥  and 王桂龙. Lightweight, super-elastic, and thermal-sound insulation bio-based PEBA foams fabricated by high-pressure foam injection molding with mold-opening.  European Polymer Journal,  103,  68, 2018. 

91.  赵国群  and 王桂龙. Injection-molded microcellular PLA/graphite nanocomposites with dramatically enhanced mechanical and electrical properties for ultra-efficient EMI shielding applications.  JOURNAL OF MATERIALS CHEMISTRY C,  6,  6847, 2018. 

92.  赵国群 , 牟玥  and 王桂龙. Lightweight and tough nanocellular PP/PTFE nanocomposite foams with defect-free surfaces obtained using in situ nanofibrillation and nanocellular injection molding.  chemical engineering journal,  350,  1, 2018. 

93.  赵国群 , 董桂伟 , 牟玥  and 王桂龙. Lightweight and strong microcellular injection molded PP/talc nanocomposite.  Composites Science and Technology,  168,  38, 2018. 

94.  王桂龙  and 赵近川. Development of high thermal insulation and compressive strength BPP foams using mold-opening foam injection molding with in-situ fibrillated PTFE fibers.  European Polymer Journal,  98,  1, 2018. 

95.  赵国群 , 张爱敏  and 王桂龙. Strong and thermal-resistance glass fiber-reinforced polylactic acid (PLA) composites enabled by heat treatment.  international journal of biological macromolecules,  129,  448, 2019. 

96.  王桂龙  and 赵近川. High thermal insulation and compressive strength polypropylene foams fabricated by high-pressure foam injection molding and mold opening of nano-fibrillar composites.  Materials & Design,  131,  1, 2017. 

97.  董桂伟 , 王桂龙  and 赵国群. Bubble morphological evolution and surface defect formation mechanism in the microcellular foam injection molding process.  RSC advances,  5,  70032, 2015. 

98.  赵国群 , 管延锦 , 王桂龙  and 董桂伟. The Cell Forming Process of Microcellular Injection-Molded Parts.  Journal of applied polymer science,  2014. 

99.  赵国群 , 王桂龙  and 刘继涛. Numerical and experimental investigations on polymer melt flow phenomenon in a vario-thermal mold cavity.  Journal of applied polymer science,  134,  2017. 

100.  王桂龙 , 管延锦  and 赵国群. Influence of relative low gas counter pressure on melt foaming behavior and surface quality of molded parts in microcellular injection molding process.  Journal of Cellular Plastics,  50,  415, 2014. 

101.  王桂龙  and Li, Xinyue. Hierarchical NiAl LDH nanotubes constructed via atomic layer deposition assisted method for high performance supercapacitors.  ELECTROCHIMICA ACTA,  255,  15, 2017. 

102.  赵国群 , 王桂龙  and 张磊. Formation mechanism of porous structure in plastic parts injected by microcellular injection molding technology with variable mold temperature.  Applied thermal engineering,  114,  484, 2017. 

103.  赵国群 , 王桂龙 , 董桂伟  and 侯俊吉. A novel gas-assisted microcellular injection molding method for preparing lightweight foams with superior surface appearance and enhanced mechanical performance.  Materials & Design,  127,  115, 2017. 

104.  赵国群 , 王桂龙 , 董桂伟  and 张磊. Investigation on bubble morphological evolution and plastic part surface quality of microcellular injection molding process based on a multiphase-solid coupled heat transfer model.  International journal of heat and mass transfer,  104,  1246, 2017. 

105.  王桂龙  and 赵国群. Heating/cooling channels design for an automotive interior part and its evaluation in rapid heat cycle moldin.  Materials and design,  59,  310, 2014. 

106.  王桂龙 , 管延锦  and 赵国群. Thermal response of an electric heating rapid heat cycle molding mold and its effect on surface appearance and tensile strength of the molded part.  Journal of applied polymer science,  2013. 

107.  王桂龙  and 赵国群. Effects of cavity surface temperature on mechanical properties of specimens with and without a weld line in rapid heat cycle molding.  Materials & Design,  2013. 

108.  王桂龙  and 龚鹏建. Advanced bimodal polystyrene/multi-walled carbon nanotube nanocomposite foams for thermal insulation.  CARBON,  120,  1, 2017. 

109.  王桂龙. Highly effective synthesis of NiO/CNT nanohybrids by atomic layer deposition for high-rate and long-life supercapacitors.  dalton transactions,  45,  13779, 2016. 

110.  王桂龙. Identification of Cell-Nucleation Mechanism in Foam Injection Molding with Gas-Counter Pressure via Mold Visualization.  AIChE Journal,  62,  4035, 2016. 

111.  赵国群  and 王桂龙. Experimental research on the effects of cavity surface temperature on surface appearance properties of the moulded part in rapid heat cycle moulding process.  The International Journal of Advanced Manufacturing Technology,  68,  1293, 2013. 

112.  王桂龙. Effect of foam processing parameters on bubble nucleation and growth dynamics in high-pressure foam injection molding.  Chemical Engineering Science,  155,  27, 2016. 

113.  王桂龙. Study of the Bubble Nucleation and Growth Mechanisms in High-Pressure Foam Injection Molding through in-situ Visualization.  European Polymer Journal,  76,  2, 2016. 

114.  赵国群  and 王桂龙. Research on formation mechanisms and control of external and inner bubble morphology in microcellular injection molding.  Polymer Engineering & Science,  55,  807, 2015. 

115.  赵国群  and 王桂龙. Development and evaluation of a new rapid mold heating and cooling method for rapid heat cycle molding.  International journal of heat and mass transfer,  78,  99, 2014. 

116.  王桂龙. 变模温注塑技术的研究与应用分析.  《现代化工》,  2009. 

117.  赵国群  and 王桂龙. 快速热循环注塑技术的研究与应用.  塑性工程学报,  2009. 

118.  王桂龙. 薄壁注塑制品翘曲影响因素分析与工艺优化.  中国机械工程,  2009. 

119.  王桂龙. 基于CAE的大型LCD面板变模温注塑工艺分析.  《材料工程》,  2009. 

120.  王桂龙. 蒸汽辅助快速热循环注塑技术及其模温响应模拟的研究.  《高分子材料科学与工程》,  2009. 

121.  王桂龙. 变模温注塑热响应模拟与模具结构优化.  机械工程学报,  2009. 

122.  赵国群  and 王桂龙. Fully coupled transient heat transfer and melt filling simulations in rapid heat cycle molding with steam heating.  polymer-plastics technology and engineering,  2011. 

123.  王桂龙. Development and evaluation of a dynamic mold temperature control system with electric heating for variotherm injection molding.  Polymer & Polymer Composites,  2009. 

124.  王桂龙. Research on a new variotherm injection molding technology and its application on the molding of a large LCD panel.  polymer-plastics technology and engineering,  2009. 

125.  赵国群  and 王桂龙. Research and application of a new rapid heat cycle molding with electric heating and coolant cooling to improve the surface quality of large LCD TV panel.  Polymers for Advanced Technologies,  2009. 

126.  王桂龙. Development and experimental study of a new electric-heating rapid thermal response mold for RHCM process.  Advanced Science Letters,  2011. 

127.  王桂龙. Three-dimensional thermal response and thermo-mechanical fatigue analysis for a large LCD TV frame mold in steam-assisted rapid heat cycle molding.  Fatigue & Fracture of Engineering Materials & Structures,  2010. 

128.  王桂龙. Research on optimum heating system design for rapid thermal response mold with electric heating based on response surface methodology and particle swarm optimization.  Journal of applied polymer science,  2010. 

129.  王桂龙. Analysis of thermal cycling efficiency and optimal design of heating/cooling systems for rapid heat cycle injection molding process.  Materials & Design,  2010. 

130.  王桂龙. Research of thermal response simulation and mold structure optimization for two rapid heat cycle molding processes respectively with steam heating and electric heating.  Materials & Design,  2009. 

131.  王桂龙. Multi-objective optimum design for heating efficiency, temperature uniformity and strength of a flat television frame mold in rapid heat cycle molding with steam heating by integrating response surface methodology and particle swarm optimization.  International Journal of Thermal Sciences,  2011. 

132.  王桂龙. Research on optimization design of the heating/cooling channels for rapid heat cycle molding based on response surface methodology and constrained particle swarm optimization.  Expert Systems with Application,  2011. 

133.  王桂龙. Thermal response of an electric heating rapid heat cycle molding mold and its effect on surface appearance and tensile strength of the molded part.  Journal of applied polymer science,  2012. 

134.  赵国群  and 王桂龙. Effects of cavity surface temperature on mechanical properties of specimens with and without a weld line in rapid heat cycle molding.  Materials and design,  2012. 

135.  王桂龙. Effects of cavity surface temperature on reinforced plastic part surface appearance in rapid heat cycle moulding.  Materials and design,  2012. 

136.  赵国群  and 王桂龙. Role of elastic strain energy in cell nucleation of polymer foaming and its application for fabricating sub-microcellular TPU microfilms.  polymer,  119,  28, 2017. 

137.  赵国群  and 王桂龙. Low-density and structure-tunable microcellular PMMA foams with improved thermal-insulation and compressive mechanical properties.  European Polymer Journal,  95,  382, 2017. 

138.  赵国群  and 王桂龙. Modelling of thermal transport through a nanocellular polymer foam: toward the generation of a new superinsulating material.  NANOSCALE,  9,  5996, 2017. 

139.  赵国群  and 王桂龙. Ultra-tough and super thermal-insulation nanocellular PMMA/TPU.  chemical engineering journal,  325,  632, 2017. 

专利
团队成员
团队名称:
轻质材料液固结构调控及加工技术创新团队
团队介绍:
轻质材料液固结构调控及加工技术创新团队由长江学者特聘教授、国家杰出青年基金获得者赵国群教授领衔,团队拥有国家级高层次人才5人、山东省杰青1人、齐鲁青年学者3人、山东大学青年学者未来计划入选者8人;团队荣获国家科技进步二等奖2项,山东省技术发明一等奖1项,山东省科技进步一等奖5项。
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