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深切缅怀刘伟庆教授
岳孔

岳孔,男,19793月生,林业工程博士,材料科学与工程出站博士后,土木工程教授、博士生导师。本科毕业于东北林业大学林业工程国家一流学科、博士研究生毕业南京林业大学林业工程国家一流学科,1946伟德国际源自英国始于1946材料科学与工程博士后流动站出站博士后。现任1946伟德国际源自英国始于1946新农村发展研究院副经理、建筑碳中和研究中心主任、伟德bevictor中文版实验教学中心副主任、现代木结构实验室主任。长期从事木结构研究、教学和实践工作。

江苏省优秀基层教学组织骨干成员,国家自然科学基金函评评议人,J Clean ProdACS Sustain Chem EngInd Crop ProdConstr Build MaterInt J Adhes AdhesInd Eng Chem ResJ Mater Res TechnoCase Stud Constr MatWood Sci TechnoPolym CompositeEur J Wood Wood ProdHolzforschungWood Mater Sci EngMater Sci ApplStructures、东南大学学报、材料导报、林业科学等期刊审稿专家,Buildings期刊客座编辑;入选江苏省双创计划科技副总。

主持国家自然科学基金项目2项、国家重点研发计划子课题2项,江苏省重点研发计划项目(社会发展面上项目)、江苏省农业科技自主创新资金项目、江苏省绿色建筑发展专项资金、江苏省建筑产业现代化专项引导资金科技支撑项目、江苏省质量技术监督局科技项目、江苏省高校自然科学研究项目各1项,国家和省部级重点实验室开放课题3项,主持企业委托的横向科研项目20余项;参与国家自然科学基金、国家高技术研究发展计划(863计划)、国家科技支撑计划、国家林业公益性行业科研重大专项等20余项。在Ind Crop ProdConstr Build MaterPolym TestCase Stud Therm EngHolzforschungThin Wall StructJ Build. EngJ Mater Civil EngEur J Wood Wood ProdWood Mater Sci EngInt J Adhes Adhes、光谱学与光谱分析、林业科学、农业工程学报等学术期刊发表论文110余篇,其中SCI检索44篇、EI检索12篇。授权中国发明专利33项,其中第一发明人22项。参编国家、地方和行业标准19部。主持完成苏州胥口镇胥虹桥(世界最大跨度木结构拱桥)、贵州省黔东南州榕江县游泳馆(国内最大跨度张弦木拱)等现代木结构制造技术工程示范20余项。

科研成果获江苏省科学技术一等奖(4/10)、高等学校科学研究优秀成果科学技术进步二等奖(4/10)、华夏建设科学技术二等奖(9/12)1项;2020年度国际木材科学技术学会(Society of Wood Science and TechnologySWST) George G. Marra一等奖,2022年度国际会议组织(ScienceFather)BEST RESEARCHER AWARD (Identification Number: 5905)

Ø 教育经历 (Education)

2005/092008/07: 南京林业大学,材料科学与工程学院,博士学位。

Degree of Philosophy Doctor.

College of Materials Science and Engineering, Nanjing Forestry University.

2002/092005/07,南京林业大学,材料科学与工程学院,硕士学位。

Degree of Philosophy Master.

College of Materials Science and Engineering, Nanjing Forestry University.

1998/092002/07,东北林业大学,材料科学与工程学院,学士学位。

Degree of Philosophy Bachelor.

College of Materials Science and Engineering, Northeast Forestry University.

Ø 工作经历 (Employment)

2008/072010/12,1946伟德国际源自英国始于1946,材料科学与工程学院,博士后;

Postdoctoral Researcher under Prof. Weiqing Liu.

College of Materials Science and Engineering, Nanjing Tech University.

2008/072012/06,1946伟德国际源自英国始于1946,伟德bevictor中文版,助理研究员(讲师)

Assistant Research Fellow (Lecturer).

College of Civil Engineering, Nanjing Tech University.

2012/062020/07,1946伟德国际源自英国始于1946,伟德bevictor中文版,副研究员(副教授)

Associate Research Fellow (Assistant Professor).

College of Civil Engineering, Nanjing Tech University.

2020/07至今,1946伟德国际源自英国始于1946,伟德bevictor中文版,研究员(教授)

Research Fellow (Professor).

College of Civil Engineering, Nanjing Tech University.

2022.01至今,1946伟德国际源自英国始于1946,新农村发展研究院,副经理;

Vice President.

New Rural Research and Development Institute, Nanjing Tech University.

2022.01至今,1946伟德国际源自英国始于1946,建筑碳中和研究中心,主任。

Director.

Carbon Neutrality Research Center in Building, Nanjing Tech University.

Ø 社会兼职 (Professional Service)

国际木材科学与技术学会(SWST) 委员;

住房和城乡建设部建筑制品与构配件标准化技术委员会委员;

中国建筑学会建筑结构分会木结构专业委员会委员;

中国林产工业协会木结构产业分会委员;

中国林学会木材工业分会木结构专业理事;

江苏省土木建筑学会竹木结构专业委员会秘书长;

江苏省建筑产业现代化促进会现代竹木结构工作委员会秘书长。

Ø 承担的科研项目 (Research Projects)

项目名称、编号

项目来源

起止年月

负责内容

木材阻燃改性在胶合木抗火性能提升中的应用研究(51978331)

Research on fire resistance of glulam fabricated with modified wood (Grant No.   51978331)

国家自然科学基金面上项目

National Nature Science Foundation of   China

2020.01–2023.12

主持

PI

速生材胶合木构件的尺寸稳定性分级及其钝化可控性研究(31100418)

Studying   the grading of dimensional stability and the improvement on the   hydrophobicity of glulam made from fast-growing wood species (Grant No.   31100418)

国家自然科学基金青年项目

National Nature Science Foundation of China

2012.012014.12

主持

PI

装配式组合式木结构体系抗火性能(2019YFD1101001)

Fire   resistance of prefabricated timber structure system (Grant No.   2019YFD1101001)

十三五国家重点研发计划项目“村镇装配式住宅生态化结构体系研究”子课题

National Key Research and Development Program of China

2019.112022.12

主持

PI

正交胶合木板(CLT) (2017YFC0703501)

Cross-laminated   timber (Grant No. 2017YFC0703501)

十三五国家重点研发计划项目“绿色生态木竹结构体系研究与工程示范”子课题

National Key Research and Development Program of China

2017.062020.12

主持

PI

装配式建筑轻质墙体隔声性能提升技术创新与应用(BE2022790)

Application   of new technology to improve the sound insulation of light frame walls in   prefabricated buildings (Grant No. BE2022790)

江苏省重点研发计划(社会发展面上项目)

Jiangsu Science and Technology Project

2022.072025.06

主持

PI

高性能麦秸石膏复合材料技术创新及其覆面墙体抗火性能提升关键技术研究(CX(22)3055)

High   performance wheat straw gypsum composite materials and its fire resistance”   (Grant No. CX(22)3055)

江苏省农业科技自主创新资金项目

Jiangsu Agriculture Science and Technology Innovation Fund

2022.072024.06

主持

PI

装配式建筑围护结构隔声性能及其舒适性提升共性技术研究与示范(苏财建〔202162-42)

Research   on common technologies for improving the sound insulation and comfort of   envelope structures of prefabricated buildings (Grant No. (2021) 62-42)

江苏省绿色建筑发展专项资金科技支撑项目

Special Fund for Green Building Development in Jiangsu Province

2021.062023.06

主持

PI

适于工业化木建筑的多功能性木基石膏墙板研究(苏财建〔2016226-12)

Research   on multipurpose wood-based gypsum panels for timber structures (Grant No.2016226-12)

江苏省建筑产业现代化专项引导资金科技支撑项目

Provincial Key Technology Research and Development Program of Special   Guidance Funds for Industrialization in Building of Jiangsu Province of China

2017.012019.12

主持

PI

生物质复合材料天然防腐性能快速检测方法与机理研究(KJ155425)

Investigation   into the mechanism and rapid testing of the decay resistance of bio-materials   (Grant No. KJ155425)

江苏省质量技术监督局科技项目

Science-Technology Project of Jiangsu Bureau of Quality and Technical   Supervision

2014.102016.09

主持

PI

适于木结构建筑的速生材功能性提升关键技术与机理研究(14KJB220001)

Research   on the mechanisms and key technologies to enhance the functioning of   fast-growing wood for timber structures (Grant No. 14KJB220001)

江苏省高校自然科学研究项目

Natural Science Foundation of the Jiangsu Higher Education Institutions   of China

2014.082016.12

主持

PI

一体化轻质墙体空气声隔声性能提升技术研究(AAE2021YB02)

Research on improving airborne sound   insulation of integrated lightweight frame wall (Grant No. AAE2021YB02)

安徽省建筑声环境重点实验室开放研究课题

Open Research Fund of Key Laboratory of   Architectural Acoustic Environment of Anhui Higher Education Institutes (Anhui   Jianzhu University)

2022.07–2024.06

主持

PI

结构用有机无机复合改性植物纤维复合材料抗火性能研究(K2019-22)

Investigation into the fire resistance of   modified organic-inorganic composite plant fiber composites for structural application   (Grant No. K2019-22)

聚合物分子工程国家重点实验室开放基金

State Key Laboratory of Molecular   Engineering of Polymers (Fudan University)

2019.01–2019.12

主持

PI

基于木建筑工业化的多功能木基石膏墙板研究(SWZCL2016-13)

Research on multipurpose wood-based gypsum   wallboard with focus on the application in timber structures” (Grant No. SWZCL2016-13)

生物质材料科学与技术教育部重点实验室放基金

Key Laboratory of Bio-based Material Science & Technology (Northeast Forestry   University), Ministry of Education

2016.09–2018.08

主持

PI

新型清水混凝土施工模板技术研究

Studying innovative fair finish concrete building   template technology

江苏省建设厅科技项目

Jiangsu Provincial Department of Housing   and Urban Rural Development Science and Technology Project

2010.09~2012.08

主持

PI

强耐火石膏刨花板创新及覆面墙体抗火性能研究

Research on the fire resistance of   prefabricated light frame walls sheathed with gypsum particleboard

1946伟德国际源自英国始于1946-中建三局工程建设碳中和研究院课题

Carbon Neutrality   Research Institute in Engineering Construction

2022.05–2023.12

主持

PI

木结构工程材制造及应用关键技术研究与示范(201304504)

国家林业公益性行业科研专项子课题

2013.01–2016.12

技术骨干

高性能纤维增强木质复合材料结构性能及应用关键技术研究(2012AA03A204)

国家高技术研究发展计划(863)子课题

2012.01–2015.12

技术骨干

高层木框筒混合结构体系抗震性能及设计方法研究(51878345)

国家自然科学基金

2019.01–2022.12

技术骨干

新型拉挤成型复合材料夹芯板材及其力学性能研究(51308287)

国家自然科学基金

2014.01–2016.12

技术骨干

泡桐木复合材料夹层结构低速冲击下的界面破坏机理及损伤评估研究(51208251)

国家自然科学基金

2013.01–2015.12

技术骨干

重型木结构植筋节点的粘结锚固机理与结构性能研究(51108233)

国家自然科学基金

2012.01–2014.12

技术骨干

新型夹层结构材料的结构性能及一体化设计方法研究(50978134)

国家自然科学基金

2010.01–2012.12

技术骨干

江苏省木结构推广与产业发展研究(2019JH05)

江苏省建设系统科技项目(计划类)

2019.12–2021.11

技术骨干

Ø 发表论文 (Publications)

[64] Li X., Yue K.*, Tang Z.Q., Lv C.L., Li Q., Wu P., Zhang Z.F. Improvement in fire resistance of glulam beams containing modified laminae by thermal treatment, inorganic impregnation and compression in the fire-side tension zone. Construction and Building Materials, 2024, 416, 135138. (JCR 1区,中科院SCI 1区,Top期刊,IF=7.4)

DOI: 10.1016/j.conbuildmat.2024.135138

[63] Li H.M.*, Zuo T., Yue K.*, Qiu H.X., Lu W.J., Xu X.K., Wang Y.T. Comparative investigation on beam-to-beam connection with different types of connecting plates. Engineering Structures, (Accepted. JCR 1区,中科院SCI 1区,Top期刊,IF=5.5)

[62] Wu T.Y., Yue K.*, Wang S.P., Liang B., Wu P., Lu W.D., Xu C., Sun K.P. Experimental investigation on mechanical properties and fire performance of innovative wheat straw-gypsum composites as building sheathing panels. Industrial Crops and Products, 2024, 208, 117897. (JCR 1区,中科院SCI 1区,Top期刊,IF=5.834)

DOI: 10.1016/j.indcrop.2023.117897

[61] Yue K.*, Qian J., Wu P., Jiao X.K., Lu D., Song X.L. Experimental analysis of thermally-treated Chinese poplar wood with focus on structural application. Industrial Crops and Products, 2023, 197, 116612. (JCR 1区,中科院SCI 1区,Top期刊,IF=6.449)

DOI: 10.1016/j.indcrop.2023.116612

[60] Yue K.*, Wu J.H., Xu L.Q., Tang Z.Q., Chen Z.J., Liu W.Q., Wang L. Use impregnation and densification to improve mechanical properties and combustion performance of Chinese fir. Construction and Building Materials, 2020, 241, 118101. (JCR 1区,中科院SCI 1区,Top期刊,IF=6.141) DOI: 10.1016/j.conbuildmat.2020.118101

[59] Yue K.*, Chen Z.J., Lu W.D., Liu W.Q., Li M.Y., Shao Y.L., Tang L.J., Wan L. Evaluating the mechanical and fire-resistance of modified fast-growing Chinese fir timber with boric-phenol-formaldehyde resin. Construction and Building Materials, 2017, 154, 956-962. (JCR 1区,中科院SCI 1区,Top期刊,IF=3.485)

DOI: 10.1016/j.conbuildmat.2017.08.035

[58] Yue K.*, Wang F., Tang Z.Q., Chen Z.J., Liu W.Q. Tensile properties of finger-jointed lumber under high-temperature and oxygen-free conditions. Holzforschung, 2021, 75(9), 838-846. (JCR 1区,中科院SCI 1Top期刊,IF=2.393) DOI: 10.1515/hf-2020-0066

[57] Yue K.*, Li X., Jiao X.K., Wu P., Song X.L. Strength grading of Chinese poplar wood for structural use following thermal modification. Polymer Testing, 2023, 123(2), 108032. (JCR 1区,中科院SCI 1IF=5.005) DOI: 10.1016/j.polymertesting.2023.108032

[56] Qian J., Yue K.*, Lv C.L., Zhu L., Jiao X.K., Wu P., Xu C., Sun K.P. Measurements of the mechanical properties of larch at elevated and high temperature under nitrogen conditions. Polymer Testing, 2023, 128(23), 108228. (JCR 1区,中科院SCI 1区,IF=5.005)

DOI: 10.1016/j.polymertesting.2023.108228

[55] Li X., Yue K.*, Lv C.L., Wu, J.H., Wu P., Xu C., Sun K.P. Relationships between wood properties and fire performance of glulam columns made from six wood species commonly used in China. Case Studies in Thermal Engineering, 2024, 54, 104029. (JCR 1区,中科院SCI 2区,Top期刊,IF=6.8) DOI: 10.1016/j.csite.2024.104029

[54] Yue K.*, Liang B., Liu J., Li M.Y., Pu Y., Lu W.D., Han Z.H., Li Z. Fire resistance of light wood frame walls sheathed with innovative gypsum-particle board: Experimental investigations. Journal of Building Engineering, 2022, 45, 103576. (JCR 1区,中科院SCI 2区,IF=7.144) DOI: 10.1016/j.jobe.2021.103576

[53] Yue K.*, Liang B., Shao Y.L., Xie C.H., Hu W.J., Zhao M.Y., Chen Z.J., Lu W.D. Lateral behavior of wood frame shear walls sheathed with densified plywood under monotonic loading. Thin-Walled Structures, 2021, 166, 108082. (JCR 1区,中科院SCI 2区,IF=4.442) DOI: 10.1016/j.tws.2021.108082

[52] Tang Z.Q., Yue K.*, Lu D., Shi X.L., Chu Y.Y., Tian Z.Y., Lu W.D. Experimental investigation into fire performance of mixed species glulam beam under three-side fire exposure. European Journal of Wood and Wood Products, 2022, 80, 235-245. (JCR 1区,中科院SCI 2区,IF=2.014) DOI: 10.1007/s00107-021-01746-7

[51] Cheng X.W., Lu D., Yue K.*, Lu W.D., Zhang Z. F. Fire resistance improvement of fast-growing poplar wood based on combined modification by resin impregnation and compression. Polymers, 2022, 14(17), 3574. (JCR 1区,中科院SCI 2区,IF=4.967)

DOI: 10.3390/polym14173574

[50] Liu J., Yue K.*, Xu L.Q., Wu J.H., Chen Z.J., Wang L., Liu W.Q., Lu W.D. Bonding performance of melamine-urea-formaldehyde and phenol-resorcinol-formaldehyde adhesive glulams at elevated temperatures. International Journal of Adhesion and Adhesives, 2020, 98, 102500. (JCR 2区,中科院SCI 2区,IF=3.189) DOI: 10.1016/j.ijadhadh.2019.102500

[49] Shi X.L., Yue K.*, Jiao X.K., Zhang Z.F., Li Z. Experimental investigation into lateral performance of cross-laminated timber (CLT) shear walls made from fast-growing poplar wood. Wood Material Science & Engineering, 2023, 18(4), 1212-1227. (JCR 2区,中科院SCI 2区,IF=2.732) DOI: 10.1080/17480272.2022.2121659

[48] Yue K.*, Yang Z.W., Liang B., Li M.Y., Liu J., Zhao M.Y., Chen Z.J., Lu W.D. Innovative gypsum-particle composite used as building structural panel. ASCE Journal of Materials in Civil Engineering, 2021, 33(8), 04021190. (JCR 2区,中科院SCI 3区,IF=3.266)

DOI: 10.1061/(ASCE)MT.1943-5533.0003789

[47] Yue K.*, Wu J.H., Wang F., Chen Z.J., Lu W.D. Mechanical properties of Douglas fir wood at elevated temperatures under nitrogen conditions. ASCE Journal of Materials in Civil Engineering, 2022, 34(2), 04021434. (JCR 2区,中科院SCI 3区,IF=3.266)

DOI: 10.1061/(ASCE)MT.1943-5533.0004072

[46] Yue K.*, Liu W.Q., Chen Z.J., Lu X.N., Lu W.D. Investigation of the creep property of fast-growing poplar wood modified with low molecular weight resins. Bioresources, 2016, 11(2), 1620-1633. (JCR 2区,中科院SCI 3区,IF=1.321)

DOI: 10.15376/biores.11.1.1620-1633

[45] Yue K.*, Song X.L., Jiao X.K., Wang L., Jia C., Chen Z.J., Liu W.Q. An experimental study on flexural behavior of glulam beams made out of thermally treated fast-growing poplar laminae. Wood and Fiber Science, 2020, 52(2), 152-164. (JCR 3区,中科院SCI 3区,IF=1.567) DOI: 10.22382/wfs-2020-014

[44] Yue K.*, Wang L., Jiao Xia, Zhang Y.L., Chen Z.J., Liu W.Q. Experimental research on mechanical properties of laminated poplar wood veneer/plastic sheet composites. Wood and Fiber Science, 2019, 51(3), 320-331. (JCR 3区,中科院SCI 3区,IF=1.104)

DOI: 10.22382/wfs-2019-030

[43] Yue K.*, Cheng X.C., Chen Z.J., Tang L.J., Liu W.Q. Investigation of decay resistance of poplar wood impregnated with of alkaline copper, urea-formaldehyde and phenol-formaldehyde resin. Wood and Fiber Science, 2018, 50(4), 392-401. (JCR 3区,中科院SCI 3区,IF=0.848) DOI: 10.22382/wfs-2018-051

[42] 岳孔*, 程秀才, 贾翀, 刘伟庆, 陆伟东. 利用傅里叶变换红外光谱分析高温对木材-胶粘剂界面性能的影响. 光谱学与光谱分析, 2019, 39(10), 3179-3183. (JCR 4区,中科院SCI 4区,IF=0.452)

Yue K.*, Cheng X.C., Jia C., Liu W.Q., Lu W.D. The influence of elevated temperatures on wood-adhesive joints by Fourier Infrared Spectrum Analysis. Spectroscopy and Spectral Analysis, 2019, 39(10), 3179-3183. DOI: 10.3964/j.issn.1000-0593(2019)10-3179-05

[41] 岳孔*, 陆栋, 宋学松. 利用傅里叶变换红外光谱分析高温改性对杨木强度等级的影响. 光谱学与光谱分析, 2023, 43(3), 848-853. (JCR 4区,中科院SCI 3区,IF=0.598)

Yue K.*, Lu D., Song X.S. The influence of thermal modification on poplar strength class by Fourier Infrared Spectrum Analysis. Spectroscopy and Spectral Analysis, 2023, 43(3), 848-853. DOI: 10.3964/j.issn.1000-0593(2023)03-0848-06

[40] Liu J., Yue K.*, Wang F., Wu J.H., Tang Z.Q., Chen Z.J., Liu W.Q. Effects of moisture content on lap-shear, bend and tensile strength of bonded Southern Pine with phenol-resorcinol-formaldehyde and melamine-urea-formaldehyde. Bioresources, 2020, 15(2), 3534-3544. (JCR 2区,中科院SCI 3区,IF=1.614)

DOI: 10.15376/biores.15.2.3534-3544

[39] Zhou J., Yue K.*, Lu W.D.*, Chen Z.J., Cheng X.C., Liu W.Q., Jia C., Tang L.J. Bonding performance of Melamine-Urea-Formaldehyde and Phenol-Resorcinol-Formaldehyde adhesives in interior grade glulam. Journal of Adhesion Science and Technology, 2017, 31(23), 2630-2639. (JCR 3区,中科院SCI 4区,IF=1.039)

DOI: 10.1080/01694243.2017.1313185

[38] Zhou J., Yue K.*, Lu W.D., Cheng X.C., Liu W.Q., Jia C., Tang L.J. Effect of CMC formic acid solution on bonding performance of MUF for interior grade glulam. Cellulose Chemistry and Technology, 2018, 52(3-4), 239-245. (JCR 3区,中科院SCI 4区,IF=0.857)

[37] Lu X.N., Yue K., Cui J.Q., Han S.G., Ding X.L. Improvement of bonding performance of lightweight panel composed of polystyrene foam core and poplar veneer with pine tannin and lignin. Cellulose Chemistry and Technology, 2012, 46 (7-8), 467-470. (JCR 3区,中科院SCI 4区,IF=0.562)

[36] Wang R., Li Z.*, Yue K.*. Influence of temperature on the mechanical properties of engineered bamboo laminate. Construction and Building Materials, 2022, 154, 956-962. (JCR 1区,中科院SCI 1区,Top期刊,IF=7.693) DOI: 10.1016/j.conbuildmat.2022.127825

[35] Zhang Z., Yue K., Li Z. Influence of temperature on the compressive properties of engineered bamboo boards used for GluBam structures. The 2020 Structures Congress, 25-28, August, 2020, GECE, Seoul, Korea. (SCI检索)

[34] Qin Y.B., Yue K., Wu P. Efficient analytical model for long-term performance of laminated tube with viscoelastic interlayer by quasi-elastic approximation. Mathematical Problems in Engineering, 2023, 8534406. (中科院SCI 4区,IF=1.763) DOI: 10.1155/2023/8534406

[33] Bao Y.W., Lu W.D.*, Yue K., Zhou H., Lu B.H., Chen Z.T. Structural performance of cross-laminated timber (CLT)-concrete composite floors with inclined self-tapping screws bearing unidirectional tension-shear loads. Journal of Building Engineering, 2022, 55, 104653. (JCR 1区,中科院SCI 2区,IF=6.276) DOI: 10.1016/j.jobe.2022.104653

[32] Bao Y.W., Lu W.D.*, Yue K., Lu B.H., Dai C.L., Qiu G.R. Experimental and nonlinear-analytical studies of cross-laminated-timber concrete composite floors with interface shear resistance enhancement of plate-end. Construction and Building Materials, 2023, 403, 133042. (JCR 1区,中科院SCI 1区,IF=7.296)

DOI: 10.1016/j.conbuildmat.2023.133042

[31] Wu P., Yu F., Yue K., Wang J., Xie L. Thermo-mechanical analysis of laminated cylindrical shell with viscoelastic bonding interlayers. Composite Structures, 2022, 300, 116159. (JCR 1区,中科院SCI 1区,Top期刊,IF=6.603) DOI: 10.1016/j.compstruct.2022.116159

[30] Yu Y.X., Deng W.Q., Yue K., Wu P.* Viscoelastic solutions and investigation for creep behavior of composite pipes under sustained compression. Buildings, 2023, 13, 61. (JCR 2区,中科院SCI 3区,IF=3.324) DOI: 10.3390/buildings13010061

[29] Guan B., Xu T.J., Yue K., Deng W.Q., Wu P.*, Zhang J.D. Exact solution and case studies for composite I-beam with corrugated steel web. Case Studies in Construction Materials, 2023, 19, e02422. (JCR 1区,中科院SCI 3区,IF=6.058) DOI: 10.1016/j.cscm.2023.e02422

[28] Li C., Li S.C.*, Yue K., Wu P.*, Xiao Z.P., Zhang J. Analytical solutions and optimization design for bending behavior of cross-laminated timber beams considering orthotropy and interface slip. Case Studies in Construction Materials, 2023, 18, e01948. (JCR 1区,中科院SCI 3区,IF=6.058) DOI: 10.1016/j.cscm.2023.e01948

[27] Lu W.D., Ling Z.B., Geng Q.F., Liu W.Q., Yang H.F., Yue K. Study on flexural behaviour of glulam beams reinforced by near surface mounted (NSM) CFRP laminates. Construction and Building Materials, 2015, 91, 23–31. (JCR 1区,中科院SCI 1区,IF=2.421)

DOI: 10.1016/j.conbuildmat.2015.04.050

[26] Xie H.L., Wan L., Wang B., Pei H.P., Liu W.Q., Yue K., Wang L. An investigation on mechanical behavior of tooth-plate-glass-fiber hybrid sandwich beams. Advances in Polymer Technology, 2020, 6346471. (JCR 2区,中科院SCI 4区,IF=1.539)

DOI: 10.1155/2020/6346471

[25] Lu W.D., Wang L., Wu J.J., Liu W.Q., Yang H.F., Yue K., Chen X.W., Sun X.L., Deng Z.X. Behavior of glulam columns reinforced by near-surface-mounted CFRP laminates under eccentric compression loading. ASCE Journal of Structural Engineering, 2016, 142(11), 90-98. (JCR 2区,中科院SCI 3区,IF=2.021) DOI: 10.1061/(ASCE)ST.1943-541X.0001585

[24] Chen Z.T., Lu W.D., Bao Y.W., Zhang J., Wang L., Yue K. Numerical Investigation of connection performance of timber-concrete composite slabs with inclined self-tapping screws under high temperature. Journal of Renewable Materials, 2021, 10(1), 89-104. (中科院SCI 4区,IF=1.67) DOI: 10.32604/jrm.2021.015925

[23] Liu X.X., Lu W.D.*, Liu K.F., Xu F.Y., Ling Z.B., Yue K. Experimental and theoretical investigation of rotational behavior of straight mortise-tenon joints considering local compression perpendicular to grain. Buildings, 2023, 13, 1839. (JCR 2区,中科院SCI 3区,IF=3.807) DOI: 10.3390/buildings13071839

[22] Huo H.F., Song F.F., Yang Y., Zhang L., Zhang X., Zhang J.J., Yue K., Zhang Z.F.*. Preparation of environmentally friendly glueless boxwood timber by acidic environmental treatment and high-temperature pressing. Polymers, 2022, 15, 11. (JCR 1区,中科院SCI 2区,IF=4.922) DOI: 10.3390/polym15010011

[21] Zhong Y.N., Ren Y., Yang Y, Huo H.F., Zhang L., Zhang J.J., Yue K., Zhang Z.F. Formaldehyde-free environmentally friendly lignocellulosic composites made from poplar and lignin obtained from paper mills. Industrial Crops and Products, 2024, 208, 117907. (JCR 1区,中科院SCI 1区,Top期刊,IF=5.834) DOI: 10.1016/j.indcrop.2023.117907

[20] 岳孔*, 陆栋, 戴长路, 刘伟庆. 高温中胶合木构件胶缝界面剪切断裂能研究. 华中科技大学学报(自然科学版), 2021, 49(4): 86-90. (EI检索)

Yue K.*, Lu D., Dai C.L., Liu W.Q. Study on shear fracture energy for bondlines in glulam at high temperature. Journal of Huazhong University of Science & Technology (Natural Science Edition), 2021, 49(4): 86-90. DOI: 10.13245/j.hust.210414

[19] 岳孔*, 邵亚陵, 刘健, 刘伟庆. 速生杨木胶合板覆面材料钉连接抗剪承载力. 华中科技大学学报(自然科学版), 2020, 48(5): 42-48. (EI检索)

Yue K.*, Shao Y.L., Liu J., Liu W.Q. Shear capacity of nail connections with fast-growing poplar plywood sheathing material. Journal of Huazhong University of Science & Technology (Natural Science Edition), 2020, 48(5): 42-48. DOI: 10.13245/j.hust.200509

[18] 岳孔*, 刘伟庆, 程秀才, 陆伟东. 高温中花旗松结构材顺纹抗压强度试验研究. 华中科技大学学报(自然科学版), 2019, 47(8): 44-49. (EI检索)

Yue K.*, Liu W.Q., Cheng X.C., Lu W.D. Experimental study on parallel-to-grain compressive strength of structural Douglas fir wood exposed to elevated temperatures. Journal of Huazhong University of Science & Technology (Natural Science Edition), 2019, 47(8): 44-49. DOI: 10.13245/j.hust.190809

[17] 岳孔*, 李响, 石鑫磊, 焦学凯, 吴鹏, 张仲凤, 董国良, 方远进. 高温预处理对杨木正交胶合木剪力墙抗侧力性能的影响. 林业科学, 2023. (EI检索,录用)

Yue K.*, Li X., Shi X.L., Jiao X.K., Wu P., Zhang Z.F., Dong G.L., Fang Y.J. Effects of thermal pretreatment on lateral performance of poplar cross-laminated timber shear walls. Scientia Silvae Sinicae, 2023. (Accepted)

[16] 岳孔*, 程相宇, 张玉才, 吴鹏, 石鑫磊, 郭华瑜. 木结构墙体空气声隔声性能试验研究. 林业科学, 2024. (EI检索,录用)

Yue K.*, Cheng X.Y., Zhang Y.C., Wu P., Guo H.Y. Experimental characterization of airborne sound insulation of timber structure walls. Scientia Silvae Sinicae, 2024. (Accepted)

[15] 岳孔*, 宋旭磊, 焦学凯, 陈强, 宋永明, 刘伟庆, 陆伟东. 高温预处理对足尺胶合木梁力学性能的影响. 林业科学, 2020, 56(4): 128-134. (EI检索)

Yue K.*, Song X.L., Jiao X.K., Chen Q., Song Y.M., Liu W.Q., Lu W.D. Mechanical properties of full-scale glulam beam made of thermally treated lamellas. Scientia Silvae Sinicae, 2020, 56(4): 128-134. DOI: 10.11707/j.1001-7488.20200414

[14] 岳孔*, 陆栋, 胡文杰, 戴长路, 吴鹏, 陆伟东. 高温中木材顺纹弦面抗剪强度试验研究. 林业科学, 2022, 58(1): 111-118. (EI检索)

Yue K.*, Lu D., Hu W.J., Dai C.L., Wu P., Lu W.D. Parallel-to-grain tangential shear strength of wood at elevated temperatures under oxygen-free conditions. Scientia Silvae Sinicae, 2022, 58(1): 111-118. DOI: 10.11707/j.1001-7488.20220112

[13] 岳孔*, 梁冰, 赵明元, 唐中秋, 王烽, 刘伟庆. 三聚氰胺-脲醛树脂改性木基石膏复合材料的效果及机理. 农业工程学报, 2020, 36(6): 300-307. (EI检索)

Yue K.*, Liang B., Zhao M.Y., Tang Z.Q., Wang F., Liu W.Q. Effects of modification with melamine-urea-formaldehyde resin and its mechanism for properties of particle-gypsum composites. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2019, 35(19): 300-307. DOI: 10.11975/j.issn.1002-6819.2020.06.036

[12] 岳孔*, 李萌禹, 刘健, 王璐, 刘伟庆, 陆伟东. 麦秸石膏复合材料力学性能和抗火性能研究. 农业工程学报, 2019, 35(18): 308-316. (EI检索)

Yue K.*, Li M.Y., Liu J., Wang L., Liu W.Q., Lu W.D. Mechanical properties and fire resistance of gypsum-based composites with wheat straw. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2019, 35(18): 308-316.

DOI: 10.11975/j.issn.1002-6819.2019.18.037

[11] 岳孔*, 程秀才, 夏蛟, 陆伟东, 刘伟庆, 万里, 贾翀. 木塑层合板的制备工艺及抗弯性能. 农业工程学报, 2015, 31(22): 301-307. (EI检索)

Yue K.*, Cheng X.C., Xia J., Lu W.D. Liu W.Q., Wan L., Jia C. Processing and bending behavior of wood-plastic laminated timber. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2015, 31(22): 301-307. DOI: 10.11975/j.issn.1002-6819.2015.22.041

[10] 陆伟东, 宋二纬, 岳孔, 刘伟庆. FRP板增强胶合木梁蠕变性能试验研究. 建筑材料学报, 2013, 16(2): 294-297. (EI检索)

Lu W.D., Song E.W., Yue K., Liu W.Q. Experimental study on creep behavior of FRP-reinforced glulam beam. Journal of Building Materials, 2013, 16(2): 294-297. DOI: 10.3969/j.issn.1007-9629.2013.02.020

[09] 李川苏, 万里, 刘伟庆, 王璐, 岳孔, 谢红磊. 齿板-玻璃纤维混合夹层结构弯曲性能试验. 复合材料学报, 2017, 34(12): 2874-2881. (EI检索)

Li C.S., Wan L., Liu W.Q., Wang L., Yue K., Xie H.L. Experimental study on flexural performance of tooth-plate-glass-fiber hybrid sandwich beams. Acta Materiae Compositae Sinica, 2017, 34(12): 2874-2881. DOI: 10.13801/j.cnki.fhclxb.20170314.005

[08] 岳孔*, 宋旭磊, 程秀才, 赖延军, 贾翀, 陆伟东, 刘伟庆. 杉木胶合木湿应力研究. 林业工程学报, 2019, 4(4): 35-40. (中文核心)

Yue K.*, Song X.L., Cheng X.C., Lai Y.J., Jia C., Lu W.D., Liu W.Q. Study on moisture stresses in Chinese fir glued laminated timber. Journal of Forestry Engineering, 2019, 4(4): 35-40. DOI: 10.13360 /j.issn.2096-1359.2019.04.005

[07] 岳孔*, 陈强, 贾翀, 程秀才, 汤丽娟, 刘伟庆, 陆伟东. 工业化高温改性木材的力学性能. 福建农林大学学报(自然科学版), 2018, 47(3): 361-366. (中文核心)

Yue K.*, Chen Q., Jia C., Cheng X.C., Tang L.J., Liu W.Q., Lu W.D. Mechanical properties of industrial heat-treated wood. Journal of Fujian Agriculture and Forestry University (Natural Science Edition), 2018, 47(3): 361-366. DOI: 10.13323/j.cnki.j.fafu(nat.sci.).2018.03.015

[06] 岳孔*, 程秀才, 王磊磊, 陆伟东, 万里, 刘伟庆, 贾翀. 改性处理对杨木力学和燃烧性能的影响. 燃烧科学与技术, 2016, 22(5): 426-432. (中文核心)

Yue K.*, Cheng X.C., Wang L.L., Lu W.D, Wan L., Liu W.Q., Jia C. Effect of modification on mechanical property and fire-retardant behavior of fast-growing poplar wood. Journal of Combustion Science and Technology, 2016, 22(5): 426-432. DOI: 10.11715/rskxjs.R201509013

[05] 岳孔*, 程秀才, 刘伟庆, 陆伟东. 重复钉入次数对花旗松握钉力的影响. 中南林业科技大学学报, 2016, 36(5): 129-132. (中文核心)

Yue K.*, Cheng X.C., Liu W.Q., Lu W.D. Study of replicate frequency on nail-holding power of Douglas fir wood. Journal of Central South University of Forestry & Technology, 2016, 36(5): 129-132. DOI:10.14067/j.cnki.1673-923x.2016.05.023

[04] 岳孔*, 程秀才, 陆伟东, 刘伟庆, 万里. 重型木结构在我国的应用和发展. 世界林业研究, 2015, 28(6): 58-62. (中文核心)

Yue K.*, Cheng X.C., Lu W.D., Liu W.Q., Wan L. Application and development of heavy timber structure in China. World Forestry Research, 2015, 28(6): 58-62.

DOI: 10.13348/j.cnki.sjlyyj. 2015.06.007

[03] 李萌禹, 岳孔*, 刘健, 刘伟庆, 宋永明, 汤丽娟, 吕城龙. 石膏刨花板研究综述与发展. 世界林业研究, 2018, 38(1): 46-51. (中文核心)

Li M.Y., Yue K., Liu J., Liu W.Q., Song Y.M., Tang L.J., Lv C.L. Current situation and future trend of gypsum particleboard. World Forestry Research, 2018, 38(1): 46-51.

DOI: 10. 13348/j.cnki.sjlyyj.2017.0078.y

[02] 杨成, 岳孔*, 陆伟东, 刘伟庆, 程秀才, 贾翀. 火灾条件下落叶松木材抗弯性能研究. 1946伟德国际源自英国始于1946学报, 2016, 38(5): 61-67. (中文核心)

Yang C., Yue K.*, Lu W.D., Liu W.Q., Cheng X.C., Jia C. Flexural behavior of larch wood under fire condition. Journal of Nanjing Tech University (Natural Science Edition), 2016, 38(5): 61-67. DOI: 10.3969 /j.issn.1671-7627.2016.05.010

[01] 王磊磊, 岳孔*, 刘伟庆, 陆伟东. 硼酸复配低分子酚醛树脂改性速生杨木阻燃性能研究. 安徽农业大学学报, 2015, 42(4): 511-514. (中文核心)

Wang L.L., Yue K.*, Liu W.Q., Lu W.D. Flame retardation of fast-growing poplar wood modified with low molecular weight boracic acid compounding phenol-formaldehyde resin. Journal of Anhui Agricultural University, 2015, 42(4): 511-514. DOI: 10.13610/j.cnki.1672-352x.20150626.008

注:*为通讯作者。

Note: * represents corresponding author.

Ø 国家发明专利 (Patents)

[1] 岳孔, 邵亚陵, 刘伟庆, 吴建国, 石建, 李萌禹, 陆伟东, 吕城龙. 具有隐式增强条带的木基结构板材及其制备方法和组合墙体[P]. 专利号ZL201810997904.4, 授权时间2023.08.22.

[2] 岳孔, 唐中秋, 王烽, 徐利芹, 吕城龙. 一种基于树种混合的胶合木梁抗火性能提升的制备工艺[P]. 专利号ZL202111127591.5, 授权时间2022.05.17.

[3] 岳孔, 郝胜群, 陆伟东, 周俊, 刘伟庆, 李萌禹, 邵亚陵, 汤丽娟, 吕城龙. 一种用于考虑胶缝导热效应的胶合木构件受火温度场的分析方法及其应用[P].专利号ZL201611049899.1, 授权时间2020.04.03.

[4] 岳孔, 周俊, 陆伟东, 郝胜群, 刘伟庆, 程秀才, 贾翀, 汤丽娟. 考虑中低温区木材强度劣化的胶合木柱抗火设计方法[P].专利号ZL201611035202.5, 授权时间2019.11.22.

[5] 岳孔, 周俊, 邵亚陵,  李萌禹, 刘伟庆, 陆伟东, 汤丽娟, 吕城龙. 基于高含水率进口木材的结构用胶合木构件制备方法[P].专利号ZL201710269728.8, 授权时间2019.08.06.

[6] 岳孔, 李萌禹, 邵亚陵, 刘伟庆, 贾翀, 陆伟东, 汤丽娟, 吕城龙. 一种结构用木基石膏复合材料及其制备方法[P].专利号ZL201810997888.9, 授权时间2019.07.02.

[7] 岳孔, 刘伟庆, 程秀才, 贾翀, 陆伟东, 汤丽娟. 基于木材塑性的弧形胶合木构件成型方法[P].专利号ZL201610814542.1, 授权时间2019.06.21.

[8] 岳孔, 刘伟庆, 陆伟东, 程秀才, 贾翀, 汤丽娟. 变截面弧形胶合木构件过弯矫正成型方法[P].专利号ZL201610814244.2, 授权时间2019.02.05.

[9] 岳孔, 刘伟庆, 程秀才, 贾翀, 陆伟东, 汤丽娟. 一种形状回弹补偿的弧形胶合木构件制备方法[P].专利号ZL201610814420.2, 授权时间2019.02.05.

[10] 岳孔, 刘伟庆, 程秀才, 陆伟东, 贾翀, 汤丽娟. 高形状精度的变截面弧形胶合木构件制备方法[P].专利号ZL201610814243.8, 授权时间2018.08.31.

[11] 岳孔, 陆伟东, 刘伟庆, 杨成, 夏蛟, 王磊磊, 徐德良, 陈强. 插板式横纹增强型木结构榫卯节点[P].专利号ZL201410830182.5, 授权时间2017.03.08.

[12] 岳孔, 杨成, 刘伟庆, 陆伟东, 夏蛟, 王磊磊, 徐德良, 陈强. 点阵式横纹增强型木结构榫卯节点[P].专利号ZL201410831335.8, 授权时间2016.08.31.

[13] 岳孔, 夏蛟, 陆伟东, 刘伟庆, 陈强, 王磊磊, 杨成, 徐德良. 面向高湿环境木建筑的耐久型结构用木塑层合板及其制备方法[P].专利号ZL201510001932.2, 授权时间2016.07.06.

[14] 岳孔, 刘伟庆, 陆伟东, 霍瑞丽, 王磊磊, 夏蛟, 方智锐, 张伟康. 用作轻型木结构龙骨的多功能型竹质工程材的制备方法[P].专利号ZL201410055977.3, 授权时间2016.07.06.

[15] 岳孔, 王磊磊, 夏蛟, 刘伟庆, 陆伟东, 杨成, 陈强, 徐德良. 木结构构件连接用功能性双向增强节点板及其制备方法和应用[P].专利号ZL201510001981.6, 授权时间2016.06.08.

[16] 岳孔, 刘伟庆, 陆伟东, 霍瑞丽, 夏蛟, 王磊磊. 高尺寸稳定性结构用木质功能梯度层合板及其制备方法[P].专利号ZL201410056375.X, 授权时间2015.10.28.

[17] 岳孔, 刘伟庆, 陆伟东, 霍瑞丽, 夏蛟, 王磊磊. 含有齿板的增强型胶合木构件及其制备工艺[P].专利号ZL201410056593.3, 授权时间2015.08.19.

[18] 岳孔, 方智锐, 刘伟庆, 陆伟东, 张伟康, 李梓渊, 靳浩, 乔庆鹞, 刘宇, 王磊磊. 胶合木用三聚氰胺-尿素-甲醛树脂及其制备工艺和使用方法[P].专利号ZL201310710649.8, 授权时间2015.08.05.

[19] 岳孔, 刘宇, 刘伟庆, 陆伟东, 霍瑞丽, 王磊磊, 夏蛟. 一种基于木材气干密度参数的胶合木构件加压制备工艺[P].专利号ZL201310724445.X, 授权时间2015.06.10.

[20] 岳孔, 刘伟庆, 陆伟东, 刘宇, 霍瑞丽. 具有抗蠕变变形性能的预应力胶合木及其制备方法和用途[P].专利号ZL201310029781.2, 授权时间2014.12.24.

[21] 岳孔, 霍瑞丽, 刘伟庆, 陆伟东, 刘宇. 尺寸稳定性可控制的胶合木构件及其制备方法[P].专利号ZL201210531896.7, 授权时间2015.07.15.

[22] 岳孔, 刘伟庆, 陆伟东, 霍瑞丽. 一种空芯层板胶合木圆木柱及制备方法[P].专利号ZL201210072356.7, 授权时间2014.05.28.

[23] 岳孔, 吴添一, 梁冰, 王书谱, 李萌禹. 轻质墙体抗火性能提升用农作物石膏复合材料覆面板及其应用[P]. 申请号202310029755.3, 受理时间2023.01.10.

[24] 岳孔, 吴添一, 梁冰, 王书谱, 李萌禹. 一种结构用麦秸石膏复合材料制备方法[P]. 申请号202310021486.6, 受理时间2023.01.07.

[25] 岳孔, 唐中秋, 张玉才. 基于木材阻燃改性的胶合木梁抗火性能提升方法[P]. 申请号202310021487.0, 受理时间2023.01.07.

[26] 岳孔, 戴长路, 程相宇, 包英威, 赵慧, 陆伟东. 正交胶合木楼盖撞击声隔声性能提升技术及应用[P]. 申请号202310022891.X, 受理时间2023.01.08.

[27] 岳孔, 谢枞辉, 程相宇, 包英威, 赵慧, 陆伟东. 一种隔声正交胶合木墙体及其制作方法[P]. 申请号202310079963.4, 受理时间2023.02.08.

[28] 岳孔,周岩,石鑫磊,程相宇,张玉才,赵慧,陆伟东. 装配式建筑用轻质墙体空气声隔声性能提升结构和方法[P]. 申请号202310284030.9, 受理时间2023.03.22.

[29] 岳孔,张玉才,石鑫磊,周岩,程相宇,赵慧,陆伟东. 装配式建筑用高空气声隔声等级的轻质交错骨柱墙体[P]. 申请号202310348605.9, 受理时间2023.04.04.

[30] 岳孔,石鑫磊,程相宇,张玉才,周岩,赵慧,陆伟东. 基于双空腔构造的装配式建筑用高隔声等级轻木剪力墙及其制备方法[P]. 申请号202310230431.6, 受理时间2023.03.11.

[30] 岳孔,包英威,邱国荣,戴长路,陆伟东,赵慧,徐超,孙克平. 正交胶合木-混凝土组合楼盖及其浮筑面层覆面后的撞击声隔声性能计算方法[P]. 申请号202310905387.4 , 受理时间2023.07.24.

Ø 参编教材专著 (Books)

[1] 现代木结构[M]. 北京: 中国建筑工业出版社, 2022.

Modern Timber Structures. Beijing: China Architecture & Building Press, 2022.

[2] 竹木结构[M]. 北京: 中国建筑工业出版社, 2021.

Bamboo and Timber Structures. Beijing: China Architecture & Building Press, 2021.

[3] 现代木结构设计指南[M]. 南京: 东南大学出版社, 2021.

Guidelines for the Design of Modern Timber Structures. Nanjing: Southeast University Press, 2021.

[4] 村镇木结构建筑抗震技术手册[M]. 南京: 东南大学出版社, 2014.

Technical Manual for Earthquake Resistance of Village and Town Timber Structure Buildings. Nanjing: Southeast University Press, 2014.

[5] 速生木结构材与功能性复合材料设计与制造[M]. 北京: 中国林业出版社, 2014.

Design and Manufacturing of Fast-growing Wood Structure and Functional Composite Materials. Beijing: China Forestry Publishing House, 2014.

Ø 参编标准规范 (Code development)

[1] 国家全文强制标准《木结构通用规范》(GB 55005-2021)

Ministry of Housing and Urban-Rural Development of the People’s Republic of China. GB 55005-2021. General Code for Timber Structures. Ministry of Housing and Urban-rural Development of the People's Republic of China.

[2] 国家标准《结构用集成材木质复合层板》(GB/T 38070-2019)

State Administration for Market Regulation. GB/T 38070-2019. Structural Composite Lumber for Use in Structural Glued Laminated Timber. State Administration for Market Regulation.

[3] 国家标准《多高层木结构建筑技术标准》(GB/T 51226-2017)

Ministry of Housing and Urban-Rural Development of the People’s Republic of China. GB/T 51226-2017. Technical Standard for Multi-story and High Rise Timber Buildings. Ministry of Housing and Urban-rural Development of the People's Republic of China

[4] 国家标准《木结构剪力墙静载和低周反复水平加载试验方法》(GB/T 37745-2019)

State Administration for Market Regulation. GB/T 37745-2019. Static and Cyclic Lateral Load Test Methods for Timber Structure Shear Walls. State Administration for Market Regulation.

[5] 国家标准《林业生物质原料分析方法 样品处理方法》(GB/T 35814-2018)

General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China. GB/T 35814-2018. Method for Analysis of Forestry Biomass-Preparation of Samples. General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China.

[6] 国家标准《水泥刨花板》(GB/T 24312-2022)

State Administration for Market Regulation. GB/T 24312-2022. Cement-bonded Particleboard. State Administration for Market Regulation.

[7] 国家标准《结构用集成材》(GB/T 26899-2022)

State Administration for Market Regulation. GB/T 26899-2022. Structural Glued Laminated Timber. State Administration for Market Regulation.

[8] 行业标准《木结构现场检测技术标准》(JGJ/T 488-2020)

Ministry of Housing and Urban-Rural Development of the People’s Republic of China. JGJ/T 488-2020. Technical Standard for In-situ Inspection of Timber Structure. Ministry of Housing and Urban-rural Development of the People's Republic of China.

[9] 行业标准《增强型胶合木构件技术标准》(已报批)

State Administration for Market Regulation. Technical Standard for Reinforced Glued Laminated Timber Members.

[10] 江苏省地方标准《重型木结构技术标准》(DB 32/T 3914-2020)

Jiangsu Provincial Department of Housing and Urban-Rural Development. DB 32/T 3914-2020. Technical Standard for Mass Timber Structures. Burearu of Housing and Urban-rural Development of Jiangsu.

[11] 上海市地方标准《木结构加固技术规范》(DG/TJ08-2332-2020)

Shanghai Housing and Urban-Rural Development Management Commission. DG/TJ08-2332-2020. Technical Standard for Strengthening of Timber Structures. Management Committee of Housing and Urban-rural Construction of Shanghai.

[12] 吉林省地方标准《多层木结构建筑设计规程》(DB22/JT 160-2016)

Jilin Province Construction Standardization Management Office. DB22/JT 160-2016. Specification for Design of Multi-storey Timber Structures. Burearu of Housing and Urban-rural Development of Jiangsu.

[13] 江苏省地方标准《木结构人行桥梁技术规程》(在编)

Jiangsu Provincial Department of Housing and Urban-Rural Development. Technical Standard for Timber Footbridges.

[14] 江苏省地方标准《装配式木结构建筑检测与验收技术规程》(在编)

Jiangsu Provincial Department of Housing and Urban-Rural Development. Technical Standard for Inspection and Acceptance of Prefabricated Timber Buildings.

[15] 江苏省地方标准《大跨木结构设计标准》(在编)

Jiangsu Provincial Department of Housing and Urban-Rural Development. Standard for Design of Large-span Timber Structures.

[16] 团体标准《小截面木框架剪力墙结构技术规程》(在编)

China Association for Engineering Construction Standard. Technical Specification for Light Post-and-beam Structures with Shear Wall.

[17] 团体标准《村镇装配式住宅施工技术与绿色评价标准》T/CSCS 038-2023

China Steel Construction Society. T/CSCS 038-2023. Standard for Construction Technology and Green Evaluation of Assembled Housing in Towns and Villages.

[18] 团体标准《木结构加固用粘结材料粘结强度测定方法及评定》(在编)

China Association for Engineering Construction Standard. Measurement Method and Evaluation of Bonding Strength of Bonding Materials for Timber Structure Reinforcement

[19] 团体标准《木-混凝土结构技术标准》(在编)

China Association for Engineering Construction Standard. Technical Standard for Timber-concrete Composite Structures.

Ø 参编施工工法 (Construction methods)

[1] 工程建设国家级工法–重型木结构隐蔽式螺栓连接施工工法(工法编号GJJGF099-2014)2015.12.

[2] 工程建设江苏省省级工法–重型木结构隐蔽式螺栓连接施工工法(工法编号JSSJGF2014-1-40)2014.07.

[3] 工程建设江苏省省级工法–碳纤维加固木结构节点施工工法,2014.07.

Ø 参与工程实践 (Practical buildings)

[1] 主持制造项目中国国际建筑艺术实践展(南京)19#地块水榭胶合木结构,2010年;

[2] 主持制造项目苏州香山技艺展示厅胶合木结构,2010年;

[3] 主持制造项目南京紫东国际创业产业园绿幕大门胶合木结构,2011年;

[4] 主持制造项目苏州75.7米胶合木桁架拱桥欢乐胥江景观桥结构,2012年;

[5] 主持制造项目南京六合滁河右岸(新城段)环境景观木桥分析与设计,2013年;

[6] 主持制造项目江苏省绿色建筑博览园木结构波浪桥胶合木工程,2015年;

[7] 主持制造项目贵州省榕江县胶合木结构游泳馆屋盖,2015年;

[8] 主持制造项目江苏省绿色建筑博览园木结构展示馆,2015年;

[9] 主持检测项目上海世博会瑞典国家主题馆,2010年;

[10] 主持检测项目南京钟灵街地块旅游配套设施外立面树形木结构工程,2012年;

[11] 主持检测项目南京秦淮区船板巷滨河游园改造景观轩木结构工程,2013年;

[12] 主持检测项目南京市玄武区耆阇环秀木结构工程,2013年;

[13] 主持检测项目南京门西愚园木结构工程,2013年;

[14]  主持检测项目诺华上海研发园三期C12-1楼胶合木结构工程,2013年,

[15]  制造项目技术咨询江苏省第十届园艺博览会博览园木结构主展馆,2018年;

[16]  制造项目技术咨询山东滨州黄河故道公园飞虹桥,2019年;

[17]  制造项目技术咨询江苏省康复医院木结构大楼,2021年。

Ø 科研与教学奖励 (Awards)

[1] 现代木结构关键技术研究与工程应用. 江苏省科学技术奖一等奖, 排名4/10, 201801.

[2] 基于建筑—结构融通的现代木结构综合性能提升技术及应用. 高等学校科学研究优秀成果奖(科学技术)二等奖, 排名4/18, 202212.

[3] 绿色生态园区技术集成应用研究与示范. 华夏建设科学技术奖二等奖, 排名9/12, 201806.

[4] 2020年度国际木材科学技术学会(International Society of Wood Science and Technology, SWST) George G. Marra一等奖, 202007.

[5] 2022年度国际会议组织(Science Father)BEST RESEARCHER AWARD (Identification Number: 5905).

[6] 1946伟德国际源自英国始于19462017-2018年度工会活动积极分子,201907.

[7] 1946伟德国际源自英国始于19462020-2021年度优秀共产党员,202107.

[8] 1946伟德国际源自英国始于19462020年度体育工作先进个人,202104.

[9] 1946伟德国际源自英国始于1946综合治理和安全生产先进个人,202303.

[10] 1946伟德国际源自英国始于1946“学习强国”学习先进个人(2次:20212022年度).

[11] 1946伟德国际源自英国始于19462014-2015年度优秀班主任,201512.

[12] 1946伟德国际源自英国始于1946土木工程学经理江都市奖教金,202101.

[13] 伟德bevictor中文版“学习强国学习标兵”(2022年度)、“学习强国学习先进个人”(2023年度).

[14] 伟德bevictor中文版先进工作者(4次:2018201920212022年度).

[15] 伟德bevictor中文版优秀共产党员(3次:201720202023年度).

[16] 伟德bevictor中文版优秀班主任(3次:201120122015年度).

Ø 指导研究生 (Graduate competition tutoring)

[1] 硕士研究生获得国家奖学金(2次:202012月、202112).

[2] 江苏省高等学校土木工程学科吕志涛院士优秀专业硕士学位论文,202107.

[3] 江苏省土木工程专业优秀毕业生(硕士)(3次:201705月、202005月、202206).

[4] 1946伟德国际源自英国始于1946优秀硕士专业学位论文(4次:202006月、202206月、2023062).

[5] 1946伟德国际源自英国始于1946优秀硕士学术学位论文(2次:201706月、202006).

[6] 1946伟德国际源自英国始于1946优秀毕业研究生(6次:201706月、202006月、202106月、202206月、2023062).

[7] 江苏省竹木结构领域优秀学术论文特等奖(202401)、一等奖(202211)和二等奖(202401).

Ø 指导本科生 (Undergraduate competition tutoring)

[1] 刘睿辰,岳孔(指导教师). 2022年1946伟德国际源自英国始于1946老员工创新创业与实践开放基金超高性能竹材及力学性能;

[2] 王俐强,岳孔(指导教师). 2021年江苏省级创新创业与实践开放基金国产低质速生木材高效绿色阻燃技术构建;

[3] 赵鹏辉,岳孔(指导教师). 2021年1946伟德国际源自英国始于1946老员工创新创业与实践开放基金高温改性国产速生木材材性基础研究(项目编号2021DC0928)

[4] 赵明元,岳孔(指导教师). 2020年江苏省级老员工创新创业训练计划项目农作物石膏复合材料微观结构与性能;

[5] 于浩天,岳孔(指导教师). 2020年1946伟德国际源自英国始于1946老员工创新创业与实践开放基金高温改性木材胶合性能(项目编号2020DC0873)

[6] 樊格致,岳孔(指导教师). 2020年1946伟德国际源自英国始于1946老员工创新创业与实践开放基金—CLT抗开裂性能提升技术研究(项目编号2020DC0874)

[7] 储韵语,岳孔(指导教师). 2018年江苏省级老员工创新创业项目三面受火胶合木梁耐火极限实验研究;

[8] 周晨谕,岳孔(指导教师). 2017年1946伟德国际源自英国始于1946校级老员工创新创业与实践开放基金办公废纸基复合材料(项目编号201718016A)

[9] 芮静文,岳孔(指导教师). 2015年江苏省级老员工创新项目基于围护结构与暖通空调系统对建筑的模型优化设计及能耗模拟分析;

[10] 曹洪,岳孔(指导教师). 2015年江苏省级老员工创新项目速生杨木木材尺寸稳定性变异规律的试验研究;

[11] 姜伟波,岳孔(指导教师). 2013-2014年度1946伟德国际源自英国始于1946本科生课外学术科技创新实践课题重点项目—FRP增强胶合木胶合界面胶粘剂渗透性能研究;

[12] 缪云飞,岳孔(指导教师). 2013-2014年度1946伟德国际源自英国始于1946本科生课外学术科技创新实践课题一般项目木质工程材料等温吸着特性研究;

[13] 方智锐,岳孔(指导教师). 2013年国家级老员工创新创业训练计划项目胶合木用结构胶粘剂MUF的制备及胶合性能研究。

Ø 研究方向 (Research interests)

木结构抗火性能,木结构耐久性能,木结构建筑舒适性,结构用生物质材料研发。

Fire resistance of timber structures; Durability of timber structures; Comfort analysis of timber buildings; Bio-materials for structural application.

Ø 招生专业

博士研究生:结构工程,防灾减灾及防护工程;

硕士研究生:结构工程,防灾减灾工程及防护工程,土木水利(专业学位)

Ø 联系方式 (Contact)

ORCID ID: https://orcid.org/0000-0002-3039-638X

Homepage: https://www.researchgate.net/profile/Yue-Kong-7

Email: yuekong@126.com(个人); yuekong@njtech.edu.cn(工作)

办公地址:江苏省南京市江北新区1946伟德国际源自英国始于1946土木学科楼(立德楼)318办公室

30 South Puzhu Road, Nanjing 211816, Jiangsu Province, China

Ø 致考生信 (Recruit)

课题组立足国家重大工程建设和社会科技创新绿色发展战略需求,长期聚焦学科前沿,始终致力于植物纤维资源高效高值利用和功能提升的研究工作,通过材料层面的技术突破,解决木结构建筑对防灾减灾性能提升和舒适性改善的行业共性关键核心技术难题。以我国重大工程需求为牵引,课题组以国产速生木材、竹材和农作物秸秆等低质生物质资源为主要研究对象,在国家重点研发计划、国家自然科学基金,以及江苏省科技厅、住建厅、教育厅、质监局、农业科学院等科技计划项目的资助下,取得了系列原创性成果,每年持续稳定在国际权威期刊发表高水平学术论文、获授权高质量发明专利,研发的系列技术和产品纳入了国家、行业和地方标准,并在木结构重大工程中得到示范应用。

学术团队科研经费稳定充足,是江苏省竹木结构专业委员会、江苏省现代木结构工作委员会的挂靠单位,拥有全国建设领域高校唯一的现代木结构专门实验室,实验室仪器设备完善,是国家装配式建筑产业基地、南京工大-中建三局工程建设碳中和研究院、江北新区建设研究院的主要支撑部分。课题组学术氛围浓厚、相处融洽和谐,提倡民主平等的师生关系,适合青年学者成长成才。

欢迎包括但不局限于土木工程、材料科学与工程、林业工程及相关学科的同学报考;欢迎有相近学科背景的博士后加入课题组。每年招收1~2名博士研究生、2~5名硕士研究生(邮件,必回复);每位加入课题组的研究生都要独立承担部分使命,课题组不需要凑人数,员工和老师需要双向奔赴、相互促进、共同成长、实现多赢。欢迎有上进心、勤奋踏实、善于思考、敢于创新和自我突破的同学报考!欢迎加入“木结构命运共同体”大家庭!

We welcome graduate students and post-doc, who are motivated, enthusiastic and practical seriously about creating technical breakthroughs in structural bio-materials and timber structures to join our home team!


数据截至202402

Last updated on Feb. 2024


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