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Online since: December 2011
Authors: AKM Nurul Amin, Anayet Ullah Patwari, Mohammad Ishtiyaq Hossain
Machado, The machinability of nickel-based alloys: a review, Journal of Materials Processing Technology 86 (1999), 1-16
Teo, The machinability of Inconel 718, Journal of Materials Processing Technology 63 (1997), 199-204
Elbestawi, Cutting temperature of ceramic tools in high speed machining of difficult-to-cut materials, Int.
Journal of mechanical Tool Manufact 36 (5) (1996), 611–634
Mannan, Machinability of nickel-based high temperature alloys, Machining Science and Technology, 4 (1) (2000), 127-168
Teo, The machinability of Inconel 718, Journal of Materials Processing Technology 63 (1997), 199-204
Elbestawi, Cutting temperature of ceramic tools in high speed machining of difficult-to-cut materials, Int.
Journal of mechanical Tool Manufact 36 (5) (1996), 611–634
Mannan, Machinability of nickel-based high temperature alloys, Machining Science and Technology, 4 (1) (2000), 127-168
Online since: August 2013
Authors: Cheng Cheng Wang, Xiao Fang Xie, Tao Sun, Yan Wang
The main material parameters used in the calculation are as follows.
Table 1 The main performance parameters of the material Material /(g/cm3) G/GPa A/MPa B/MPa N C M Damage element 17.6 137 1510 1770 0.12 0.016 1.0 warhead 7.83 77 792 510 0.26 0.014 1.03 Fig. 1 shows the damage effect in 30s and Fig. 2 shows the damage effect in 60s.
Journal of Projectiles, Rocket s, Missiles and Guidance. 2006. 1, 750-752
Journal of Ballistics.2005.6,33-36
Journal of Projectiles, Rocket s, Missiles and Guidance. 2008.12, 83-86
Table 1 The main performance parameters of the material Material /(g/cm3) G/GPa A/MPa B/MPa N C M Damage element 17.6 137 1510 1770 0.12 0.016 1.0 warhead 7.83 77 792 510 0.26 0.014 1.03 Fig. 1 shows the damage effect in 30s and Fig. 2 shows the damage effect in 60s.
Journal of Projectiles, Rocket s, Missiles and Guidance. 2006. 1, 750-752
Journal of Ballistics.2005.6,33-36
Journal of Projectiles, Rocket s, Missiles and Guidance. 2008.12, 83-86
Online since: November 2019
Authors: Naoual Houaidji, Mejda Ajili, Baghdadi Chouial, Najoua Kamoun-Turki, Kenza Kamli, Asma Khadraoui, Alloua Chibani, Zakaria Hadef, Beddiaf Zaidi, Bouzid Hadjoudja
These properties make these materials ideal candidates for photovoltaic applications [5-7].
Sun, Structural, optical and electrical properties of Fe-doped SnO2 fabricated by sol-gel dip coating technique, Materials Science in Semiconductor Processing,13 (2010) 125-131 [2] B.
Rahal, Optical and Structural Characterization of Fluorine-Doped SnO2 Thin Films Prepared by Spray Ultrasonic, Journal of New Technology and Materials, 04 (2014)106-111 [21] A.E.
Kamoun-Turki, Structural, Optical, and Electrical Properties of SnS:Ag Thin Films, Journal of Electronic Materials, 44 (2015) 4392-4399 [29] J.
Turki-Kamoun, Effects of Al content on physical properties of ZnS thin films prepared by chemical bath deposition, Journal of Materials Science: Materials in Electronics, 26 (2015) 8854-8862 [31] B.Benhaoua, S.
Sun, Structural, optical and electrical properties of Fe-doped SnO2 fabricated by sol-gel dip coating technique, Materials Science in Semiconductor Processing,13 (2010) 125-131 [2] B.
Rahal, Optical and Structural Characterization of Fluorine-Doped SnO2 Thin Films Prepared by Spray Ultrasonic, Journal of New Technology and Materials, 04 (2014)106-111 [21] A.E.
Kamoun-Turki, Structural, Optical, and Electrical Properties of SnS:Ag Thin Films, Journal of Electronic Materials, 44 (2015) 4392-4399 [29] J.
Turki-Kamoun, Effects of Al content on physical properties of ZnS thin films prepared by chemical bath deposition, Journal of Materials Science: Materials in Electronics, 26 (2015) 8854-8862 [31] B.Benhaoua, S.
Online since: November 2021
Authors: Nabin Baran Manik, Sudipta Sen
Liu, Trap-Assisted Charge Injection into Large Bandgap Polymer Semiconductors, Materials. 12 (2019) 1-9
Speller, The significance of fullerene electron acceptors in organic solar cell photo-oxidation, Materials Science and Technology. 33 (2017) 924-933
Manik, Effect of back electrode on trap energy and interfacial barrier height of crystal violet dye-based organic device, Bulletin of Materials Science. 43 (2020) 1-4
Manik, Effect of Zinc Oxide (ZnO) Nanoparticles on Interfacial Barrier Height and Band Bending of Phenosafranin (PSF) Dye-Based Organic Device, Journal of Electronic Materials. 49 (2020) 4647- 4652
Türüt, Electronic parameters of MIS Schottky diodes with DNA biopolymer interlayer, Materials Science-Poland. 33 (2015) 593-600
Speller, The significance of fullerene electron acceptors in organic solar cell photo-oxidation, Materials Science and Technology. 33 (2017) 924-933
Manik, Effect of back electrode on trap energy and interfacial barrier height of crystal violet dye-based organic device, Bulletin of Materials Science. 43 (2020) 1-4
Manik, Effect of Zinc Oxide (ZnO) Nanoparticles on Interfacial Barrier Height and Band Bending of Phenosafranin (PSF) Dye-Based Organic Device, Journal of Electronic Materials. 49 (2020) 4647- 4652
Türüt, Electronic parameters of MIS Schottky diodes with DNA biopolymer interlayer, Materials Science-Poland. 33 (2015) 593-600
Online since: September 2013
Authors: Norzila Othman, Syazwani Mohd Asharuddin
Materials and methods
Preparation of Cucumis melo rind.
Crini, Recent developments in polysaccharide-based materials used as adsorbents in wastewater treatment.
International Journal of Engineering Science and Technology. 3 (2011) 1642-1647
African Journal of Environmental Science and Technology. 5 (2011) 1-7
Journal of Hazardous Materials. 117 (2005) 64-67
Crini, Recent developments in polysaccharide-based materials used as adsorbents in wastewater treatment.
International Journal of Engineering Science and Technology. 3 (2011) 1642-1647
African Journal of Environmental Science and Technology. 5 (2011) 1-7
Journal of Hazardous Materials. 117 (2005) 64-67
Online since: December 2013
Authors: S. Sharif, Denni Kurniawan, M.Y. Noordin, P.Y.M. Wibowo Ndaruhadi
Low cutting force is also important in bone machining considering that bone is a brittle material.
Occurrence of brittle fracture when machining brittle materials should be suppressed as it deteriorate the quality of surface finish [7,8].
Temperature changes near the drilling face, The Journal of Bone and Joint Surgery. 78 (1996), p.357-62
[2] G Augustin, S Davila, K Mihoci, T Udiljak, DS Vedrina, A Antabak, Thermal osteonecrosis and bone drilling parameters revisited, Arch Orthop Trauma Surg. 128 (2008), p.71–77 [3] SC Isler, E Cansiz, CTanyel, M Soluk, F Selvi, Z Cebi, The effect of irrigation temperature on bone healing, International Journal of Medical Sciences. 8 (2011), p.704-708 [4] SRH Davidson, DF James, Drilling in bone: modeling heat generation and temperature distribution, Journal of Biomechanical Engineering. 125 (2003), p.305-314 [5] D Kurniawan, N Jiawkok, MY Noordin, Machining conditions effect to machining temperature and forces in orthogonal machining of bone, Advanced Materials Research. 658 (2013), p.223-226 [6] S Sharif, EA Rahim, H Sasahara, Machinability of titanium alloys in drilling.
Journal of Manufacturing Processes. 13 (2011), p.50-59 [8] DP Yu, YS Wong, GS Hong, A novel method for determination of the subsurface damage depth in diamond turning of brittle materials, International Journal of Machine Tools and Manufacture. 51 (2011), p. 918-927 [9] H Ohashi, M Therin, A Meunier, P Christel, The effect of drilling parameters on bone- Part I General healing response, Journal of Materials Science: Materials in Medicine. 5 (1994), p.225- 231 [10] MY Noordin, D Kurniawan, S Sharif, Feasibility of mild hard turning of stainless steel using coated carbide tool, International Journal of Advanced Manufacturing Technology. 60 (2012), p.853-863 [11] D Kurniawan, NM Yusof, S Sharif, Hard machining of stainless steel using wiper coated carbide: tool life and surface integrity, Materials and Manufacturing Processes. 25 (2010), p.370-377 [12] C Yeager, A Nazari, D Arola, Machining of cortical bone: Surface texture, surface integrity and cutting forces, Mach Sci Technol. 12
Occurrence of brittle fracture when machining brittle materials should be suppressed as it deteriorate the quality of surface finish [7,8].
Temperature changes near the drilling face, The Journal of Bone and Joint Surgery. 78 (1996), p.357-62
[2] G Augustin, S Davila, K Mihoci, T Udiljak, DS Vedrina, A Antabak, Thermal osteonecrosis and bone drilling parameters revisited, Arch Orthop Trauma Surg. 128 (2008), p.71–77 [3] SC Isler, E Cansiz, CTanyel, M Soluk, F Selvi, Z Cebi, The effect of irrigation temperature on bone healing, International Journal of Medical Sciences. 8 (2011), p.704-708 [4] SRH Davidson, DF James, Drilling in bone: modeling heat generation and temperature distribution, Journal of Biomechanical Engineering. 125 (2003), p.305-314 [5] D Kurniawan, N Jiawkok, MY Noordin, Machining conditions effect to machining temperature and forces in orthogonal machining of bone, Advanced Materials Research. 658 (2013), p.223-226 [6] S Sharif, EA Rahim, H Sasahara, Machinability of titanium alloys in drilling.
Journal of Manufacturing Processes. 13 (2011), p.50-59 [8] DP Yu, YS Wong, GS Hong, A novel method for determination of the subsurface damage depth in diamond turning of brittle materials, International Journal of Machine Tools and Manufacture. 51 (2011), p. 918-927 [9] H Ohashi, M Therin, A Meunier, P Christel, The effect of drilling parameters on bone- Part I General healing response, Journal of Materials Science: Materials in Medicine. 5 (1994), p.225- 231 [10] MY Noordin, D Kurniawan, S Sharif, Feasibility of mild hard turning of stainless steel using coated carbide tool, International Journal of Advanced Manufacturing Technology. 60 (2012), p.853-863 [11] D Kurniawan, NM Yusof, S Sharif, Hard machining of stainless steel using wiper coated carbide: tool life and surface integrity, Materials and Manufacturing Processes. 25 (2010), p.370-377 [12] C Yeager, A Nazari, D Arola, Machining of cortical bone: Surface texture, surface integrity and cutting forces, Mach Sci Technol. 12
Online since: June 2013
Authors: Marco D’Avino, Alfredo Bregni, Massimiliano Maria Schiraldi
Introduction
The Material Requirements Planning (MRP) basic calculation computes a future projection of the inventory level − on a time horizon at least equal to the total upstream lead-time − by algebraically summing the stock at hand, the planned receipts and the gross requirements coming from the Master Production Schedule (MPS): if, for a certain item, the projected inventory level gets below a predefined threshold (which can eventually include safety stocks), a new procurement or production order is released.
References [1] Orlicky J. in: Material Requirements Planning: The New Way of Life in Production and Inventory Management (McGraw-Hill, New York 1975) [2] Na h., Lee h., Park j. in: A new approach for finite capacity planning in MRP environment, Volume 257/2008, IFIP Advances in Information and Communication Technology (2008) [3] Zijm w.h.m., Buitenhek r. in: Capacity planning and lead time management, International Journal of Production Economics 46-47 (1996), pp.165-179 [4] Enns s.t. in: MRP performance effects due to forecast bias and demand uncertainty, European Journal of Operational Research 138 (2002), pp. 87-102 [5] Yeung j.h.y., Wong w.c.k. and Ma l. in: Parameters affecting the effectiveness of MRP systems: a review, International Journal of Production Research 36 (1998), pp. 313-331 [6] Hautaniemi p, Pirttila t. in: The choice of replenishment policies in an MRP environment, Int.
Econ. 59 (1999), pp. 85-92 [7] Whybark, Williams in: MRP under uncertainty, Decision Science 7 (1996), p. 35-51 [8] Buzacott, Shanthinkumar in: Safety Stock versus Safety Time in MRP Controlled Production Systems, Management Science, Vol. 40, No. 12 (1994) [9] Lee t. s., Everett e. in: Forecasting Error Evaluation in Material Requirements Planning (MRP) Production-Inventory Systems, Management Science Vol. 32 No. 9, (1986), pp. 1186-1205 [10] Vollman b., Whybark j. in: Manufacturing Planning and Control for Supply Chain Management, McGraw-Hill Edition (2005) [11] Donselaar k.h., Gubbels b.j. in: How to release orders in order to minimise system inventory and system nervousness?
, International Journal of Production Economics 78 (2002), pp. 335-343 [12] Chen f., Drezner z., Ryan j. k., Simchi-levi d. in: Quantifying the Bullwhip effect in a Simple Supply Chain: The Impact of Forecasting, Lead times, and information, Management Science Vol. 46 no. 3 (2000) pp. 436-443 [13] Lee h.l., Padmanabhan v., Seungjin w. in: The Bullwhip Effect in Supply Chains, Sloan Management Review/Spring (1997); [14] Forrester j in: Industrial Dynamics: a Major Break Though for Decision-Makers, Harvard Business Review 36 (1958); [15] Steele d. in: The nervous MRP System: how to do battle, Production and Inventory Management, fourth quarter (1975) pp. 83-89; [16] Wemmerlov u. in: Design Factors in MRP systems: a limited survey, Production and Inventory Management Fourth quarter (1979), pp. 15-35; [17] Mather h. in: Reschedule the schedules you just scheduled – Way of life for MRP?
Journal of Production and Inventory Management vol. 18 1st quarter (1977), pag. 60-79; [18] Iannone R., Lambiase A., Miranda S., Riemma S. in: Performance improvement of a supply chain network with on-line management of backward scheduling: a simulation study Flexible Automation and Intelligent Manufacturing, Proceedings 16th International conference (2006); [19] Blackburn j.d., Kropp d. h., Millen r. a. in: A comparison of strategies to dampen nervousness in MRP systems, Management Science Vol. 32 No. 4 (1986); [20] Carlson r.c., Beckman s.l. and Kropp d.h. in: The effectiveness of extending the horizon in rolling production scheduling, Decision Science 13 (1982) pp. 129-146; [21] Inderfurth k. in: Nervousness in inventory control: analytical results, OR Spektrum 16, (1994), pp. 113-123; [22] Segerstedt a. in: Formulas of MRP, International Journal Production Economics 46-47, (1996) pp. 127-136;
References [1] Orlicky J. in: Material Requirements Planning: The New Way of Life in Production and Inventory Management (McGraw-Hill, New York 1975) [2] Na h., Lee h., Park j. in: A new approach for finite capacity planning in MRP environment, Volume 257/2008, IFIP Advances in Information and Communication Technology (2008) [3] Zijm w.h.m., Buitenhek r. in: Capacity planning and lead time management, International Journal of Production Economics 46-47 (1996), pp.165-179 [4] Enns s.t. in: MRP performance effects due to forecast bias and demand uncertainty, European Journal of Operational Research 138 (2002), pp. 87-102 [5] Yeung j.h.y., Wong w.c.k. and Ma l. in: Parameters affecting the effectiveness of MRP systems: a review, International Journal of Production Research 36 (1998), pp. 313-331 [6] Hautaniemi p, Pirttila t. in: The choice of replenishment policies in an MRP environment, Int.
Econ. 59 (1999), pp. 85-92 [7] Whybark, Williams in: MRP under uncertainty, Decision Science 7 (1996), p. 35-51 [8] Buzacott, Shanthinkumar in: Safety Stock versus Safety Time in MRP Controlled Production Systems, Management Science, Vol. 40, No. 12 (1994) [9] Lee t. s., Everett e. in: Forecasting Error Evaluation in Material Requirements Planning (MRP) Production-Inventory Systems, Management Science Vol. 32 No. 9, (1986), pp. 1186-1205 [10] Vollman b., Whybark j. in: Manufacturing Planning and Control for Supply Chain Management, McGraw-Hill Edition (2005) [11] Donselaar k.h., Gubbels b.j. in: How to release orders in order to minimise system inventory and system nervousness?
, International Journal of Production Economics 78 (2002), pp. 335-343 [12] Chen f., Drezner z., Ryan j. k., Simchi-levi d. in: Quantifying the Bullwhip effect in a Simple Supply Chain: The Impact of Forecasting, Lead times, and information, Management Science Vol. 46 no. 3 (2000) pp. 436-443 [13] Lee h.l., Padmanabhan v., Seungjin w. in: The Bullwhip Effect in Supply Chains, Sloan Management Review/Spring (1997); [14] Forrester j in: Industrial Dynamics: a Major Break Though for Decision-Makers, Harvard Business Review 36 (1958); [15] Steele d. in: The nervous MRP System: how to do battle, Production and Inventory Management, fourth quarter (1975) pp. 83-89; [16] Wemmerlov u. in: Design Factors in MRP systems: a limited survey, Production and Inventory Management Fourth quarter (1979), pp. 15-35; [17] Mather h. in: Reschedule the schedules you just scheduled – Way of life for MRP?
Journal of Production and Inventory Management vol. 18 1st quarter (1977), pag. 60-79; [18] Iannone R., Lambiase A., Miranda S., Riemma S. in: Performance improvement of a supply chain network with on-line management of backward scheduling: a simulation study Flexible Automation and Intelligent Manufacturing, Proceedings 16th International conference (2006); [19] Blackburn j.d., Kropp d. h., Millen r. a. in: A comparison of strategies to dampen nervousness in MRP systems, Management Science Vol. 32 No. 4 (1986); [20] Carlson r.c., Beckman s.l. and Kropp d.h. in: The effectiveness of extending the horizon in rolling production scheduling, Decision Science 13 (1982) pp. 129-146; [21] Inderfurth k. in: Nervousness in inventory control: analytical results, OR Spektrum 16, (1994), pp. 113-123; [22] Segerstedt a. in: Formulas of MRP, International Journal Production Economics 46-47, (1996) pp. 127-136;
Online since: August 2013
Authors: Yan Zhou, Ya Li Ye, Jie Yang, Chuan Yi Zhuang
Response to the degree of influence of various factors on the pavement mechanics, pavement structure design and material design should be selected according to road type of damage specifications.
(a) the course bottom tensile strain of the asphalt layer (b) subgrade compressive strain (c) the maximum shear stress of asphalt pavement Fig. 2 The sensitivity analysis Acknowledgements This work was financially supported by the Doctoral Starting up Foundation of Shandong Jiaotong University; Scientific Research Foundation of Shandong Jiaotong University(No.Z201244); Technology Project of the Ministry of Transport(2011 319 817 480); Transportation Science and technology innovation project(2011-10); The project of National Natural Science Fund(51208337); The Ministry of housing and Urban-Rural Construction Project(2012-K4-28).
Journal of Highway and Transportation Research and Development,2010,27(6):15-19.
Comparative analysis of mechanical response of three typical asphalt pavement structures[J].Journal of Chang'an University:Natural Science Edition,2009,29(4):1-7.
Journal of Highway and Transportation Research and Development,2011.28(11):12-19.
(a) the course bottom tensile strain of the asphalt layer (b) subgrade compressive strain (c) the maximum shear stress of asphalt pavement Fig. 2 The sensitivity analysis Acknowledgements This work was financially supported by the Doctoral Starting up Foundation of Shandong Jiaotong University; Scientific Research Foundation of Shandong Jiaotong University(No.Z201244); Technology Project of the Ministry of Transport(2011 319 817 480); Transportation Science and technology innovation project(2011-10); The project of National Natural Science Fund(51208337); The Ministry of housing and Urban-Rural Construction Project(2012-K4-28).
Journal of Highway and Transportation Research and Development,2010,27(6):15-19.
Comparative analysis of mechanical response of three typical asphalt pavement structures[J].Journal of Chang'an University:Natural Science Edition,2009,29(4):1-7.
Journal of Highway and Transportation Research and Development,2011.28(11):12-19.
Online since: April 2011
Authors: Yong Xiang Dong, Shun Shan Feng, Li Xing Xiao, Chang Jing Xia
Compared with other materials, study of the dynamic characteristics of rock using the SHPB apparatus was late.
International Journal of Rock Mechanics and Mining Sciences, 37(2000): pp. 983-992
International Journal of Rock Mechanics and Mining Sciences, Vol.42(2005), No. 2, pp. 167-176
[6] H.Kolsky, An investigation of mechanical properties of materials at very high rates of loading.
Explosive Materials, Vol. 21(2000), No. 1, pp. 1-5
International Journal of Rock Mechanics and Mining Sciences, 37(2000): pp. 983-992
International Journal of Rock Mechanics and Mining Sciences, Vol.42(2005), No. 2, pp. 167-176
[6] H.Kolsky, An investigation of mechanical properties of materials at very high rates of loading.
Explosive Materials, Vol. 21(2000), No. 1, pp. 1-5
Online since: August 2013
Authors: Si Hao Lv, Zhi Hui Liang, Yan Yan Zen, Hong Bo Fan
Material and methods
Soybean whey.
Journal of Harbin university of commerce (Natural Sciences Eedition). 2002,18(6):647-650
Journal of Membrane Science 274 (2006) 73–82
Journal of Membrane Science, 289 (2007) 241–248 [9] C.C.V.
Journal of Membrane Science, 297 (2007) 104–120 [10] Y.
Journal of Harbin university of commerce (Natural Sciences Eedition). 2002,18(6):647-650
Journal of Membrane Science 274 (2006) 73–82
Journal of Membrane Science, 289 (2007) 241–248 [9] C.C.V.
Journal of Membrane Science, 297 (2007) 104–120 [10] Y.