An Evaluation on Machining Processes for Sustainable Manufacturing
Sustainable manufacturing consists of environmental protection, profitability and societal benefit for all industrial areas. Manufacturing practices are investigated for optimize production efficiency while minimizing environmental impact and maintaining social equity. It can be achieved through changes in products, processes and systems related to the sustainability issues. In sustainable manufacturing process, the natural resources which are key elements of sustainability must be used prudently by academic, scientific, cultural and human organizations. In this context, sustainable machining can be defined as a process which has been performed of sustainable manufacturing by using alternative machining technologies such as cryogenic machining, high pressure jet assisted machining. Sustainable machining investigates the conflict and synergy between economical and environmental considerations as well as the effect of system boundaries in determining optimum machining conditions. This paper presents a general evaluation on the importance of sustainable machining technologies in obtaining sustainable manufacturing objectives.
Keywords: Sustainable manufacturing, cooling, lubrication, cryogenic machining, high pressure jet assisted
International Trade Administration, “How Does Define
M.asp, (2007). Sustainable
Rashid, S.H.A., Evans, S., Longhurst, P., “A
comparison of four sustainable manufacturing
strategies”, International Journal of Sustainable
Engineering, 1, 214-229, (2008).
Jayal, A.D., Badurdeen, F., Dillon, O.W., “Jawahir,
I.S., Sustainable manufacturing: Modeling and
optimization challenges at the product, process and
system levels”, CIRP Journal of Manufacturing
Science and Technology, 2 (3): 144-152, (2010).
Wolny, W.W., “European approach to development of new
electroceramics”, Ceramics International, 30:
1079-1083, (2004). sustainable
Mijanovic, K., Kopac, J., “Environmental
management inside production systems”, Journal
of Materials Processing Technology, 162-163, 759-765, (2005).
Kaebernick, H., Kara, S., “Environmentally
Sustainable Manufacturing: A Survey on Industry
Practices”, 13th CIRP International Conference
on Life Cycle Engineering, (2006).  Kopac, J., “Achievements by manufacturing
Achievements in Materials and Manufacturing
Engineering, 34: 180-187, (2009). Journal of
Jayal, A.D., Balaji, A.K., “Effects of cutting fluid
application on tool wear in machining: Interactions
with tool-coatings and tool surface features”, Wear,
267: 1723-1730, (2009).  Narita, N., Fujimoto, H., “Analysis of
environmental impact due to machine tool
operation”, International Journal of Automation
Technology, 3: 49-55, (2009).
Westkamper, E., “Manufacture and Sustainable Manufacturing”, 4th CIRP Conference on Manufacturing Systems, Japan, 11–14, (2008).
Sutherland, J.W., Riviera, J.L., Brown, K.L., Law, M., Hutchins, M.J., Jenkins, T.L., Haapala, K.R., “Challenges for the Manufacturing Enterprise to Achieve Sustainable Development”, 4th CIRP Conference on Manufacturing Systems, Japan, 15–18, (2008).
Pusavec, F., Kramer, D., Krajnik, P., Kopac, J., “Transitioning to sustainable production – Part II: Evaluation of sustainable machining technologies”, Journal of Cleaner Production, 18: 1211–1221, (2010).
Sustainable Manufacturing Research Group, UK Univesity of Kentucky, Center for Manufacturing, College http://www.mfg.uky.edu/sustain/, (2009). Engineering,
Joshi, K., Venkatachalam, A., Jawahir, I.S., “A New Methodology for Transforming 3R Concept into for Sustainability”, Sustainable Product Development and Life Cycle Engineering, Brazil, (2006). Improved Product IV Global Conference on
Jawahir, I.S., Dillon, O.W.J.R., “Sustainable Manufacturing Processes: New Challenges for Developing Predictive Models and Optimization Techniques”, First International Conference on Sustainable Manufacturing SM1, Montreal, Canada, October 17-18, (2007).
Lanz, M., Mani, M., Leong, S., Lyons, K., Ranta, A., Ikkala, K., Bengtsson N., “Impact of Energy Measurements In Machining Operations”, ASME International Design Engineering Technical Conferences & Computers and Information in Engineering Conference, Canada, (2010).
Municipal Solid Waste (MSW), “Reduce, Reuse, and Recycle”, U.S. Environmental Protection Agency, (2008).
Rajemi, M.F., Mativenga, P.T., Aramcharoen, A., “Sustainable machining: selection of optimum turning conditions based on minimum energy considerations”, Journal of Cleaner Production, 18: 1059-1065, (2010).
Vinodh, S., Rathod, G., “Integration of ECQFD and LCA for sustainable product design”, Journal of Cleaner Production, 18: 833-842, (2010).
Peiling, L., “Towards smart and competitive sustainable Materials, 447-448, 301-305, (2010). Key Engineering
Jegatheesan, V., Liow, J.L., Shu, L., Kim, S.H., Visvanathan, C., “The need for global coordination in sustainable development”, Journal of Cleaner Production, 17: 637–643, (2009).
Jaafar, I.H., Venkatachalam, A., Joshi, K., Ungureanu, A.C., De Silva, N., Dillon Jr, O.W., Rouch, K.E., Jawahir, I.S., “Product Design for Sustainability: A New Assessment Methodology and Case Studies”, Handbook of Environmentally Conscious Mechanical Design, 25-65, (2007).
Shao, G., Kibira, D., Lyons, K., “A virtual machining model for sustainability analysis”, ASME Technical Conferences & Computers and Information in Engineering Conference, Canada, (2010). Design Engineering
Ljungberg, L.Y., “Materials selection and design of Materials and Design, 28: 466-479, (2007). products”,
Kaebernick, H., Kara, S., Sun, M., “Sustainable product development and manufacturing by considering Robotics Manufacturing, 19: 461-468, (2003). Integrated
Baldwin, J.S., Allen, P.M., Winder, B., Ridgway, K., “Modelling manufacturing evolution: thoughts on sustainable industrial development”, Journal of Cleaner Production, 13: 887-902, (2005).
Shen, L., Tam, V.W.Y., Tam, L., Ji, Y., “Project the implementation of sustainable and socially responsible construction management practice”, Journal of Cleaner Production, 18: 254-259, (2010).
Xianchun, T., Fei, L., Dacheng, L., Li , Z., Haiying, W., Yihua, Z., “Improved methods for process routing in enterprise production processes in terms of sustainable development II”, Tsinghua Science and Technology, 11: 693-700, (2006).
Liow, J.L., “Mechanical micromachining: a micro-device sustainable approach?”,Journal of Cleaner Production, 17: 662–667, (2009). manufacturing
Environmental Protection Agency (EPA), LCA Page, http://www.epa.gov/nrmrl/lcaccess, (2010).
Fratila, D.,“Macro-level environmental comparison of near-dry machining and flood machining”, Journal of Cleaner Production, 18 (10-11): 1031- 1039, (2010).
Jeswani, H.K., Azapagic, A., Schepelmann, P., Ritthoff, M., “Options for broadening and deepening the LCA Approaches”, Journal of Cleaner Production, 18 (2): 120-127, (2010).
Gehin, A., Zwolinski, P., Brissaud, D., “A tool to implement sustainable end-of life strategies in the product development phase”, Journal of Cleaner Production, 16 (5): 566–576, (2008).
Bonilla, S.H., Almeida, C., Giannetti, B.F., Huisingh, D., “The roles of cleaner production in the sustainable development of modern societies: an introduction to this special issue”, Journal of Cleaner Production, 18 (1): 1–5, (2010).
Dovi, V.G., Friedler, F., Huisingh, D., Klemes, J.J., “Cleaner energy for sustainable future”, Journal of Cleaner Production, 17 (10): 889–895, (2009).
El Baradie, M.A., “Cutting fluids, Part I: Characterisation”, Processing Technology, 56: 786-797, (1996). of Materials
Çakır,O.,Yardimeden, A.,Ozben, T.,Kilickap,E., “Selection of cutting fluids in machining processes”, Journal of Achievements in Materials and Manufacturing Engineering, 25 (2): 99-102, (2007).
Brinksmeier, E.,Diersen,P.,Zillmer,A.,Janssen,R., “Cooling lubrication reduction when machining advanced http://imtp.free.fr/imtp2/Key/brinksmeier_ekkard_ 1., (2010). materials,
Çakır, O., Kıyak, M., Altan, E., “Comprasion of gases applications to wet and dry cuttings in turning”, Journal of Materials Processing Technology, 153-154, 35-41, (2004).
Özçatalbaş, Y., Baş, A., “Tornalamada hava püskürtme ile soğutmanın kesme kuvvetleri ve takım ömrüne etkilerinin araştırılması, Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, 21 (3), 451-455, (2006).
Jayal, A.D., Balaji, A.K., “Effects of cutting fluid application on tool wear in machining: Interactions with tool-coatings and tool surface features”, Wear, 267: 1723-1730, (2009).
Abdalla, H.S., Baines, W., McIntrye, G., Slade, C., “Development of novel sustainable neat-oil metal working fluids for stainless steel and titanium alloy machining. Part1. Formulation development”, International Manufacturing Technology, 34: 21–33, (2007). of Advanced
Jayal, A.D., Balaji, A.K., “Effects of cutting fluid application on tool wear in machining: Interactions with tool-coatings and tool surface features”, Wear, 267: 1723-1730, (2009).  Kopac, J., “Achievements by manufacturing Achievements in Materials and Manufacturing Engineering, 34: 180-187, (2009). Journal of
Pusavec, F., Krajnik, P., Kopac, J., “Transitioning to sustainable production – Part I: Application on machining technologies”, Journal of Cleaner Production, 18: 174–184, (2010).
Weinert, K., Inasaki, I., Sutherland, J. W., Wakabayashi, T., “Dry machining and minimum quantity lubrication”, CIRP Annals–Manuf. Technology, 53(2): 511-537, (2004).
Skerlos, S.J., Hayes, K.F., Clarens, A.F., Zhao, F., “Current advances in sustainable metalworking fluids Sustainable Manufacturing, 1 (1/2): 180-202, (2008), Journal of
Pusavec F., Stoic A., Kopac, J., “The role of cryogenics in machining processes”,Technical Gazette, 16 (4): 3-10, (2009).
Kramar, D., Kopac, J., “High performance aspect manufacturing materials”, Journal of Advances in Production Engineering & Management (APEM), 1-2, 3-14, (2009). of hard-to-machine
Su, Y., He, N., Li, L., Iqbal, A., Xiao, M.H., Xu, S., Qiu, B.G., “Refrigerated cooling air cutting of difficult-to-cut materials I”, Journal of Machine Tools & Manufacture, 47: 927-933, (2007).
Ezugwu, E.O., Bonney, J., “Effect of high-pressure coolant supply when machining nickel-base, Inconel 718, alloy with coated carbide tools”, Journal of Materials Processing Technology, 153-154, 1045-1050, (2004).
Colak, O., Cini, A., Yunlu, L., Kurbanoglu, C., "Machining of Ti-6Al-4V super alloy with using high pressure jet assisted cooling", 44th. CIRP Conference on Manufacturing Systems, Madison, WI, USA. May 31-June 3 (2011).  Çolak, O., "Investigation
performance of Inconel 718 under high pressure
cooling conditions", Strojniški vestnik - Journal
of Mechanical Engineering, 58 (11), 683-690, (2012). on Machining
Fratila, D.,” Evaluation of near-dry machining effects on gear milling process efficiency”, Journal of Cleaner Production, 17: 839-845, (2009).
Deutsche GesetzlicheUnfallversicherung (DGUV), “Minimum quantity lubrication for machining operations”,http://publikationen.dguv.de/dguv/pdf/ 10002/i-718e, (2010).
Marksberry, P.W., “Micro-flood (MF) technology for sustainable manufacturing operations that are coolant less and occupationally friendly”, Journal of Cleaner Production, 15: 958-971, (2007).
Marksberry, P.W., Jawahir, I.S., “A comprehensive tool-wear/tool-life performance model in the evaluation of NDM (Near Dry Machining) International Journal of Machine Tools & Manufacture, 48: 878-886, (2008).
Kendall, L.A., “Friction and wear of cutting tools and cutting tool materials”, ASM Handbook, ASM International, The Materials Information Society, 18: 609–620, (1998).
Sharma, V.S., Dogra, M., Suri, N.M., “Cooling techniques for improved productivity in turning”, International Journal of Machine Tools & Manufacture, 49: 435–453, (2009).
Bhowmick, S., Lukitsch, M.J., Alpas, A.T., “Dry and minimum quantity lubrication drilling of cast magnesium alloy (AM60)”, International Journal of Machine Tools & Manufacture, 50: 444–457, (2010).
Thamizhmanii, S., Rosli, S.H., “A study of minimum quantity lubrication on Inconel 718 steel”, Archives of Materials Science and Engineering, 39/1: 38-44, (2009).
Yildiz, Y., Nalbant, M., “A review of cryogenic cooling in machining processes”, International Journal of Machine Tools & Manufacture, 48: 947–964, (2008).
Aznijar A.Y., Zahari T., and Indra P.A., “A review of cryogenic cooling in high speed machining (HSM) of mold and die steels”,Scientific Research and Essays, 5 (5): 412-427, (2010).
Jawahir, I.S., Dillon Jr, O.W., Jayal A.D., challenges machining: Developing predictive models and optimization techniques for dry, near dry (MQL) and cryogenic machining operations”, AMPT Keynote for sustainable Paper Title, (2010).