Selected Technical Papers
| Slot No. | Time | Company | Country | Title of the paper |
| Technical Papers Presentation | ||||
| Date : Mon, 14th November 2011 - Hall 3 | ||||
| 1A.1 | 1200 | Electrotherm (India) Ltd | India | Modern Energy Efficient IGBT type Induction Power Supplies (Forge Master) Suitable for Indian/International Forging Industry. |
| 1A.2 | 1220 | SMS Meer GmbH | Germany | Automation of Large Forging Lines by the use of Robots |
| 1A.3 | 1240 | ACE Micromatic | India | A powerful tool to drive productivity on manufacturing shop floors – TPM-Trak® |
| 1A.4 | 1300 | Schuler AG | Germany | Servo Drive Technology in forging applications |
| 2A.1 | 1410 | Inductotherm (India) Pvt. Ltd | India | Providing superior quality of inductively heated billets |
| 2A.2 | 1430 | Enomoto Machine Co., Ltd. | Japan | Vertical Upsetter Servo Screw Driven Type |
| 2A.3 | 1450 | FICEP S.p.A., | Italy | From the bar to the forged piece : Slugs cutting in the modern integrated forging systems |
| 2A.4 | 1510 | Anyang Forging Press Machinery Industry Co., Ltd | China | Manufacture of high quality forging equipments, supply and service for the development of world forging industry |
| 3A.1 | 1550 | Sumitomo Heavy Industries Techno-Fort Co., Ltd | Japan | Recent forging facilities and technology for automation |
| 3A.2 | 1610 | Haian Baixie Forging Hammer Co.,Ltd. | China | Fully PLC controlled hydraulic die forging hammer and green forging |
| 3A.3 | 1630 | Dango & Dienenthal Maschinenbau GmbH | Germany | The most powerful and most modern open die forging plant |
| 3A.4 | 1650 | Toshniwal Industries Pvt. Ltd | India | Non-contact temperature measurement in forging industries |
| 4A.1 | 1710 | Bharat Forge Ltd | India | “Machined Crankshaft Prototype” - An Economical Solution for Engine Development |
| 4A.2 | 1730 | Super Auto Forge Ltd | India | Warm forming of near net shape aluminium brackets using closed die forging principle |
| 4A.3 | 1750 | Simufact Engineering GmbH | Germany | Decoupled analysis of die loads: Helpful tool in forging process optimisation? |
| 4A.4 | 1810 | Stanko-Indo | Russia | Innovative manufacturing of near net-shaped pole claw |
| Date : Tue, 15th November 2011 - Hall 3 | ||||
| 5A.1 | 0800 | Bharat Forge Ltd | India | Crankshaft design for manufacturing and engine reliability |
| 5A.2 | 0820 | M M Forgings Ltd | India | ERP implementation at M M Forgings - a case study |
| 5A.3 | 0840 | Super Auto Forge Ltd | India | Enhancing the lifetime of forging dies by means of proper splitting of dies |
| 5A.4 | 0900 | Dongfeng Forging Co., Ltd | China | Research and application of semi-closed forging process on crankshafts |
| 6A.1 | 0940 | Buderus Edelstahl GmbH | Germany | Metallurgical trends to enhance properties of forged case hardened components |
| 6A.2 | 1000 | Böhler Edelstahl GmbH | Austria | High carbon 5%CrMoV hot work tool steel tailored for the demands of forging dies |
| 6A.3 | 1020 | ZWEZ-Chemie GmbH | Germany | Chemical surface treatment prior to cold forming of steel – recent advances and future prospects |
| 6A.4 | 1040 | Savita Oil Technologies Ltd | India | Hardened facts of quenching oil |
| 7A.1 | 1120 | SMS Meer GmbH | Germany | Newest technologies for the production of seamless rolled rings within the wind power industry |
| 7A.2 | 1140 | Schuler AG | Germany | Turnkey solutions for forging railway wheels |
| 7A.3 | 1200 | Cemsa | Italy | Electrical Upsetting Technology |
| 7A.4 | 1220 | GLAMA Maschinenbau GmbH | Germany | Next Generation manipulators for forging industry |
| 8A.1 | 1420 | Buderus Edelstahl GmbH | Germany | High-performance die steels for creating new customer values |
| 8A.2 | 1440 | Siempelkamp | Germany | Metal forming presses and process technology for titanium and Ni-based alloys forging |
| 8A.3 | 1500 | Jyoti CNC Automation Pvt Ltd | India | High Speed Machining |
| 8A.4 | 1520 | Murata Machinery Ltd | Japan | Automation for turning process of forgings |
| 8A.5 | 1540 | Makino | Japan | Latest Machining technologies for forging die manufacturer |
| Date : Mon, 14th November 2011 - Halls 1 & 2 | ||||
| 1B.1 | 1200 | Ohio State University | USA | Advances in modeling of forging processes: aerospace, automotive and power applications |
| 1B.2 | 1220 | Bharat Forge Ltd | India | Innovative use of state-of-the-art technologies for forging process and design optimisation |
| 1B.3 | 1240 | Transvalor | France | Benefits of High Performance Computing applied to the numerical simulation of forged parts |
| 1B.4 | 1300 | Buderus Edelstahl Schmiedetechnik GmbH | Germany | Experiences in manufacturing crown wheels with a forged pregearing for commercial vehicle industry |
| 2B.1 | 1410 | Hindalco Industries Ltd | India | Forging of aluminum alloys |
| 2B.2 | 1430 | Arcvac Forgecast Ltd | India | Cleanliness in Special Steels |
| 2B.3 | 1450 | Kind & Co. Edelstahlwerk, KG | Germany | Innovative tool steels reduce tooling costs for the Forging Industry |
| 2B.4 | 1510 | Mukand Ltd | India | Microalloyed steel long products for auto component applications |
| 3B.1 | 1550 | Schmiedewerke Gröditz GmbH | Germany | Advanced Die Steel Concept |
| 3B.2 | 1610 | WIKUS-Sägenfabrik | Germany | Carbide tipped band saw blades for efficient high speed cutting |
| 3B.3 | 1630 | Georgsmarienhütte GmbH | Germany | New developments in bainitic forging steels |
| 3B.4 | 1650 | JSW Steel Ltd, Salem Works | India | Controlled Nitrogen Micro alloyed steels for forging |
| 4B.1 | 1710 | Induction S.r.l | Italy | Induction static heating of billets in titanium alloys, nickel alloys, high alloyed and high speed steels for hot rolling |
| 4B.2 | 1730 | GERB Vibration Control Systems - India | India | Vibration Isolation / Foundation design for forging equipments |
| 4B.3 | 1750 | Comtes FHT a.s. | Czech Republic | Universal Forging Press for R&D Purposes and Prototyping |
| 4B.4 | 1810 | Hefei Metalforming Machine Tool Limited | China | The introduction of Servo driven Hydraulic Press |
| Date : Tue, 15th November 2011 - Halls 1 & 2 | ||||
| 5B.1 | 0800 | Hatebur Metalforming Equipment Ltd | Switzerland | High Volume multi-stage horizontal metal forming equipment (Hot forging) |
| 5B.2 | 0820 | LASCO Umformtechnik GmbH | Germany | Preforming on Hydraulic Presses and Rolls |
| 5B.3 | 0840 | Mitsui Engineering & Shipbuilding Co., Ltd | Japan | Mitsui E&S Billet Heater - current development status |
| 5B.4 | 0900 | Forging Technologies | Switzerland | Precision forging for medical applications – the isothermal solution |
| 6B.1 | 0940 | Bharat Forge Ltd | India | Effect of heat treatment parameters on residual stresses and quench cracking of forged component. |
| 6B.2 | 1000 | Advanced Forming Technology Centre | India | Applications of Process CAE for Forging Process Design in Industry |
| 6B.3 | 1020 | Comtes FHT a.s. | Czech Republic | Multi-approach modelling of Railway wheels production |
| 6B.4 | 1040 | Nanjing Automobile Forging Co., Ltd. | China | Energy Saving work thinking of Forging Industry |
| 7B.1 | 1120 | Bharat Forge Ltd | India | “FTQ” Development of Complex Passenger Car Crankshaft Using Simulation Technology |
| 7B.2 | 1140 | QuantorForm | Russia | Implementation of Thermally and Mechanically Coupled Models for Simulation of Metal Forming Processes |
| 7B.3 | 1200 | CPM GmbH | Germany | Various Approaches to deal with Microstructure in Simulation of Bulk Metal Forming |
| 7B.4 | 1220 | Carl Bechem GmbH | Germany | Lubricant Coating Systems for the Forging Industry from the View of a Lubricant Manufacturer |
| 8B.1 | 1420 | Institute for Metal Forming Technology (IFU), University of Stuttgart | Germany | Producing cross – shaped light weight parts by lateral extrusion techniques |
| 8B.2 | 1440 | RWTH Aachen University, Laboratory for Machine Tools and Production Engineering (WZL) | Germany | Accelerated production launch of forging processes - Result of a holistic simulation approach considering the interactions between machine, tooling system and forging process |
| 8B.3 | 1500 | VIT University | India | Failures encountered in realizing the specified strength in forged shafts of a high strength low alloy steel – an analysis |
| 8B.4 | 1520 | Ohio State University | USA | Integrated modeling of forging processes for safety critical parts |
| 8B.5 | 1540 | Institute of Metal Forming and Metal-Forming Machines (IFUM) |
Germany | Increasing the wear resistance of hot forging tools by using thin ceramic layers and intelligent wear reducing steel alloys |
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