Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: September 2013
Authors: Di Liang, Hua Dong Wang, Xiang Fei Ma, Yu Cheng Pan
A new value stream mapping technique based on material flow, information flow and knowledge flow
Yucheng Pan 1,a, Di Liang 1,b, Xiangfei Ma 1,c, Huadong Wang 1,d
1School of Mechanical Engineering, Shenyang University, Shenyang, P.R.
Compared with the traditional value stream mapping technique which is based on the material flow and information flow, this paper combines the supply chain knowledge flow and the value stream mapping technique to come up with a new value stream mapping model which is based on the material flow, information flow and knowledge flow.
It is around the core business and reaches its goal through controlling the information flow, logistics and capital flow, following the procedure which from the procurement of raw materials to the output of the intermediate products and final products and finally to send the products to customers by sales network [1].
According to the actual condition in car seat processing, the value stream status map of car seat knowledge flow which based on the material flow and information flow is drawn by introducing knowledge flow, as shown in Fig. 2: Fig. 2 Status value stream map including knowledge flow This picture shows the current situation about value stream of car seat knowledge flow.
[3] Ijujiro Nonaka: Harvard Business Bedew Vol. 6(1991): p. 96-104 [4] Xiaofeng An, Xumei Zhang, Huitao Zhang: Science and Technology Management Research Vol. 1(2009): p.191-193, (In Chinese) [5] Desouza KC, Chattaraj A, Kraft G: Journal of Knowledge Management Vol. 3(2003): p.129-138 [6] Zhaoxiang Wang, Chen Cai: Chinese Journal of Management Science Vol. 2(2007): p.126-133, (In Chinese) [7] Gupta A K, Govindaraian V: Strategic Management Journal Vol. 4(2000): p. 473-496
Compared with the traditional value stream mapping technique which is based on the material flow and information flow, this paper combines the supply chain knowledge flow and the value stream mapping technique to come up with a new value stream mapping model which is based on the material flow, information flow and knowledge flow.
It is around the core business and reaches its goal through controlling the information flow, logistics and capital flow, following the procedure which from the procurement of raw materials to the output of the intermediate products and final products and finally to send the products to customers by sales network [1].
According to the actual condition in car seat processing, the value stream status map of car seat knowledge flow which based on the material flow and information flow is drawn by introducing knowledge flow, as shown in Fig. 2: Fig. 2 Status value stream map including knowledge flow This picture shows the current situation about value stream of car seat knowledge flow.
[3] Ijujiro Nonaka: Harvard Business Bedew Vol. 6(1991): p. 96-104 [4] Xiaofeng An, Xumei Zhang, Huitao Zhang: Science and Technology Management Research Vol. 1(2009): p.191-193, (In Chinese) [5] Desouza KC, Chattaraj A, Kraft G: Journal of Knowledge Management Vol. 3(2003): p.129-138 [6] Zhaoxiang Wang, Chen Cai: Chinese Journal of Management Science Vol. 2(2007): p.126-133, (In Chinese) [7] Gupta A K, Govindaraian V: Strategic Management Journal Vol. 4(2000): p. 473-496
Online since: January 2020
Authors: Ahmed A. Ayash, Raouf Mahmood Raouf, Khalid Mershed Eweed
The essential raw materials used were asphalt, aggregate and polypropylene waste (PP).
The used aggregates were crushed, stone dust was used as filler materials.
Shbeeb, The use of polyethylene in hot asphalt mixtures, American Journal of Applied Sciences 4 (2007) 390-396
Siddiqui, Conversion of hazardous plastic wastes into useful chemical products, Journal of Hazardous Materials 167 (2009) 728-735
Salokhe, Use of waste plastic in construction of bituminous road, International Journal of Engineering Science and Technology 4 (2012)
The used aggregates were crushed, stone dust was used as filler materials.
Shbeeb, The use of polyethylene in hot asphalt mixtures, American Journal of Applied Sciences 4 (2007) 390-396
Siddiqui, Conversion of hazardous plastic wastes into useful chemical products, Journal of Hazardous Materials 167 (2009) 728-735
Salokhe, Use of waste plastic in construction of bituminous road, International Journal of Engineering Science and Technology 4 (2012)
Online since: November 2018
Authors: Pauline Ong, Nazli Bin Che Din, M.Z. Kasron, Maznan Bin Ismon, Izzuddin Bin Zaman, Musli Nizam Bin Yahya, Muhd Hafeez Bin Zainulabidin, Desmond Daniel Vui Sheng Chin
Materials and Experiment
Table 1.
Materials & Design, 2011. 32(8): p. 4658-4663
JOM Journal of the Minerals, Metals and Materials Society, 2009. 61(1): p. 17-22
A Review on the Potential of Natural Fibre for Sound Absorption Application. in IOP Conference Series: Materials Science and Engineering. 2017.
International journal of molecular sciences, 2009. 10(9): p. 3722-3742
Materials & Design, 2011. 32(8): p. 4658-4663
JOM Journal of the Minerals, Metals and Materials Society, 2009. 61(1): p. 17-22
A Review on the Potential of Natural Fibre for Sound Absorption Application. in IOP Conference Series: Materials Science and Engineering. 2017.
International journal of molecular sciences, 2009. 10(9): p. 3722-3742
Online since: December 2016
Authors: Peter Juras, Miroslav Jakubcik
Wind-driven rain research is important within the number of research areas including Earth sciences, meteorology and building science.
Moisture accumulation in porous materials can lead to water penetration, frost damage, moisture induced salt migration, discoloration by efflorescence, structural cracking due to thermal and moisture gradients, increased thermal loss due to the raised thermal conductivity, aesthetics etc. [1, 2].
Carmeliet, A review of wind-driven rain research in building science, Journal of Wind Engineering and Industrial Aerodynamics, 92 (2004) pp. 1079–1130
Juras, Measurement and CFD simulation of wind-driven rain using eulerian multiphase model, Advanced Materials Research, 1041 (2014) pp. 265-268
Matiasovsky, Driving rain course simulation based on daily data, Journal of Thermal Env. & Bldg.
Moisture accumulation in porous materials can lead to water penetration, frost damage, moisture induced salt migration, discoloration by efflorescence, structural cracking due to thermal and moisture gradients, increased thermal loss due to the raised thermal conductivity, aesthetics etc. [1, 2].
Carmeliet, A review of wind-driven rain research in building science, Journal of Wind Engineering and Industrial Aerodynamics, 92 (2004) pp. 1079–1130
Juras, Measurement and CFD simulation of wind-driven rain using eulerian multiphase model, Advanced Materials Research, 1041 (2014) pp. 265-268
Matiasovsky, Driving rain course simulation based on daily data, Journal of Thermal Env. & Bldg.
Online since: October 2014
Authors: Ping Zhang, Li Ming Zhang, Mei Yan Hang, Jing Su
The Application of the Fly Ash Excitated Grinding Materials
Mei-Yan HANG1,a, Li-Ming ZHANG1,a, Jing SU1,aand Ping ZHANG2,a
1Inner Mongolia University of Science and Technology,Baotou 014010,China
2Baotou Steel Deer Building Materials Company,Baotou 014010,China
ahangmeiyan64@163.com,
Keywords: Fly ash, Water demand ratio, The activity index,Adaptability.
Grinding excitation materials effect on the fly ash grinding Fig. 2.
Study on Mechanical force -chemistry of the Size Reduction Process of Fly Ash with Grinding aids[J].Chongqing Environmental Sciences,2003,25(11),68-70
Journal Of China Coal Society, 2005,30(3):366-370
Journal Of Chongqing Jianzhu University,1995,17(3):111-117
Grinding excitation materials effect on the fly ash grinding Fig. 2.
Study on Mechanical force -chemistry of the Size Reduction Process of Fly Ash with Grinding aids[J].Chongqing Environmental Sciences,2003,25(11),68-70
Journal Of China Coal Society, 2005,30(3):366-370
Journal Of Chongqing Jianzhu University,1995,17(3):111-117
Online since: December 2012
Authors: Min Xian Shi, Zhuo Chen, Rong Yang Dou, Jing Dai, Zhi Xiong Huang
Karagulle[3]modeled smart structures with piezoelectric materials using the product ANSYS/Multiphysics.
Composite foam beam is SF30,SF40,SF50 and SF60, respectively.In the modeling first the composite foam beam was creased and then the PZT-5A was placed over it .After meshing the two materials, boundary conditions are defined for the nodes at x=0 ,in addition, the DOF(degree of freedom) and VOLT of the nodes at the top and bottom surfaces of the PZT are coupled.
Journal of HeFei university of Tecnology.2(34):260-263
Smart Material and Structures.13(2004)661-667
Journal of Sandwich Structures & Materials, 2005, 7(2): 95-111
Composite foam beam is SF30,SF40,SF50 and SF60, respectively.In the modeling first the composite foam beam was creased and then the PZT-5A was placed over it .After meshing the two materials, boundary conditions are defined for the nodes at x=0 ,in addition, the DOF(degree of freedom) and VOLT of the nodes at the top and bottom surfaces of the PZT are coupled.
Journal of HeFei university of Tecnology.2(34):260-263
Smart Material and Structures.13(2004)661-667
Journal of Sandwich Structures & Materials, 2005, 7(2): 95-111
Online since: June 2013
Authors: Shu Kui Li, Ying Chun Wang, Abdul Rehman Niazi, Zhi Yu Hu, Usman Zahid
Acknowledgements
This work was supported in part by the National Key Laboratory of Science and Technology on Materials under Shock and Impact under funding No. 9140A13060110BQ03
References
[1] Łukas Ciupiński, D.
Heat sink Materials processing by Pulse plasma Sintering.
Advanced Materials Research, 59, 120-124 [2] C.
Revolutionary New Thermal Management Materials.
[J] Diamond and Related Materials.
Heat sink Materials processing by Pulse plasma Sintering.
Advanced Materials Research, 59, 120-124 [2] C.
Revolutionary New Thermal Management Materials.
[J] Diamond and Related Materials.
Online since: January 2017
Authors: Xiu Chen Zhao, Ying Liu, Jing Wei Cheng, Xuan Zhong
Chakravorty: Journal of materials science letters, Vol. 15 (1996) No.21, p.1872
Zhao: Journal of Magnetism and Magnetic Materials, Vol. 212 (2000) No.1, p.175
Kumar: Science of Advanced Materials, Vol. 6 (2014) No.3, p.1196
Koh: Journal of Magnetism and Magnetic Materials, Vol. 321 (2009) No.6, p.581
Li: Journal of Magnetism and Magnetic Materials, Vol. 354 (2014) No.1, p.7
Zhao: Journal of Magnetism and Magnetic Materials, Vol. 212 (2000) No.1, p.175
Kumar: Science of Advanced Materials, Vol. 6 (2014) No.3, p.1196
Koh: Journal of Magnetism and Magnetic Materials, Vol. 321 (2009) No.6, p.581
Li: Journal of Magnetism and Magnetic Materials, Vol. 354 (2014) No.1, p.7
Online since: February 2022
Authors: Ola Saleh Mahdi, Israa K. Sabree
Materials and Methods
1-Raw Materials
The alumina used as a material for the floor phase of the coating was purchased from the local market with a purity rate of approximately 98%. made in India.
[5] Silvio José Gobbi, Gustavo Reinke, Vagner João Gobbi, Biomaterial: Concepts and Basics Properties, European International Journal of Science and Technology, 2020, pp.21-33
Jack Lemons, Guigen Zhang, Properties of Materials, Biomaterials Science , 2020, pp35-48
[9] Elia Marin, Biomaterials and biocompatibility, Journal of Biomedical Materials Research 2020, pp4-12
Zadpoor, Mechanical performance of auxetic meta-biomaterials, Journal of the Mechanical Behavior of Biomedical Materials,6(2020) 12-21
[5] Silvio José Gobbi, Gustavo Reinke, Vagner João Gobbi, Biomaterial: Concepts and Basics Properties, European International Journal of Science and Technology, 2020, pp.21-33
Jack Lemons, Guigen Zhang, Properties of Materials, Biomaterials Science , 2020, pp35-48
[9] Elia Marin, Biomaterials and biocompatibility, Journal of Biomedical Materials Research 2020, pp4-12
Zadpoor, Mechanical performance of auxetic meta-biomaterials, Journal of the Mechanical Behavior of Biomedical Materials,6(2020) 12-21
Online since: June 2012
Authors: Tae Whan Hong, Na Ri Lee, Kyeong Il Kim, Soo Sun Lee, Sung Jei Hong
MLCA (Material Life Cycle Assessment) for ITO Recycling
Soo-Sun Lee1, a, Na-Ri Lee 1, b, Kyeong-Il Kim1, c, Sung-Jei Hong1, d ,
*Tae-Whan Hong 1, e
1 Department of Materials Science and Engineering/Research Center for Sustainable
ECo-Devices and Materials (ReSEM), Chungju National University,
Geomdan-ri, Iryu-myeon, Chungju, Chungbuk, 380-702, Korea
² Korea Electronics Technology Institute, 68 Yatap-dong, Bundang-gu Seongnam, Gyeonggi
Province, 463-816, Republic of korea
a tjgona@cjnu.ac.kr, b leenari@cjnu.ac.kr, c kki@cjnu.ac.kr, dhongsj@keti.re.kr,
e twhong@cjnu.ac.kr
Keywords: Material life cycle assessment (MLCA), Indium-Tin Oxide (ITO), environmental assessment, recycling system, landfill
Abstract.
And In almost every product life cycle, materials play a very important role.
Espinosa, R.Garcia-Valverde, A.Urbina, F.C.Krebs: Solar Energy Materials & Solar Cells Vol. 95(2011), pp. 1293-1302 [2] Johanna Berlin: International Dairy Journal Vol. 12(2002), pp.939-953 [3] D.
Xiao, H.Wang, J.Zhu, S.Peng: Materials and Design Vol.22 (2001), pp. 147-149 [4] K.Yagi, K.Halada: Materials synthesis and processing, pp.228-232 [5] F.Brentrup, J.Kusters, H.Kuhlmann, J.
Lammel: European Journal of Agronomy Vol.14 (2001), pp.221-233
And In almost every product life cycle, materials play a very important role.
Espinosa, R.Garcia-Valverde, A.Urbina, F.C.Krebs: Solar Energy Materials & Solar Cells Vol. 95(2011), pp. 1293-1302 [2] Johanna Berlin: International Dairy Journal Vol. 12(2002), pp.939-953 [3] D.
Xiao, H.Wang, J.Zhu, S.Peng: Materials and Design Vol.22 (2001), pp. 147-149 [4] K.Yagi, K.Halada: Materials synthesis and processing, pp.228-232 [5] F.Brentrup, J.Kusters, H.Kuhlmann, J.
Lammel: European Journal of Agronomy Vol.14 (2001), pp.221-233