Transcript
Invitation – Preliminary programme The International HIP Committee (IHC) invites you to
9–13 June, 2014 Stockholm · Sweden
Organised by Jernkontoret (The Swedish Steel Producers’ Association) www.hip14.se
Welcome to HIP ‘14, the 11th International HIP conference
Vaxholm castle
Photo: Jeppe Wikström/Stockholm Visitors Board · Cover photo: Åke Lindmann/Clarion Hotel Sign.
Photo: Bengt Nyman
The International HIP Committee (IHC), Jernkontoret and its Technical Committee on Powder Metallurgy are pleased to invite you to the 11th International Conference of Hot Isostatic Pressing, HIP ’14 in Stockholm, Sweden 9–13 June 2014. Hot Isostatic Pressing, HIP, technology has established itself in the past decades as a competitive and proven manufacturing process for the production of complex and massive components made from a wide range of metals. These components are currently being used in highly demanding environments within the aerospace, oil and gas, power generation, medical and tooling industries. HIP technology is also used for diffusion bonding and casting densification, both well-established processes. This conference is the successor to the 10th conference, HIP ’11, held in Kobe, Japan in April 2011, and thus number eleven in order, after the first conference held 25 years ago in Sweden 1987. Taking place in Stockholm – the Venice of the north and one of the most beautiful cities in northern Europe – this conference will be an impressive gathering, which all HIP specialists should attend, as well as new users interested in the unique Near Net Shape capability & material performance offeredby HIP technology. This triennial conference will focus on trends, developments and innovations in the field of Hot Isostatic Pressing technology and will cover topicssuch as material development, production of near net shape (NNS) components, part design and process modelling. Aspects related to powder metallurgy processing, diffusion bonding and part densification will also be included. Each day of the conference will have a specific end user focus, starting from users viewpoints and covering specific material, modelling & HIP technology issues related in particular to: – oil & gas, – power generation, – aerospace. We are looking forward to meeting you at HIP14 conference in Stockholm.
Stephen J. Mashl
Bo-Erik Pers
Chairman of IHC
President of Jernkontoret
Carl-Gustaf Hjorth
Adeline Riou
HIP ‘14 Conference Chairman
HIP ‘14 Programme Chairman
THE 11TH INTERNATIONAL CONFERENCE ON HOT ISOSTATIC PRESSING Preliminary programme (version 21 January)
Tuesday 10 June 07:30 Registration Is also possible on Monday 9 June 17:00–20:00 at the Venue
Opening session 08:30 Carl-Gustaf Hjorth, HIP ‘14 Chairman Adeline Riou, HIP ’14 Programme Chairman Stephen J. Mashl, IHC Chairman
Session 1 A – Oil & gas 09:00 101 Oil and gas end user experience on HIPed components Freddy Busschaert, TOTAL E&P, Technology Division Subsea Department, Pau, France 09:30 102 Use of Hot Isostatic Pressed (HIP) duplex stainless steels for critical subsea applications Henrik Larsson, GE Oil & Gas, Materials & Process Engineering Department, Sandvika, Norway 10:00 103 Perspectives of the application of high strength nickel base alloys by HIP in rotating equipment for oil & gas industry Federico Iozzelli, GE Oil & Gas, Materials and Process Engineering, Firenze, Italy 10:30 Coffee break and Poster sessions
Session 1 B – Materials 11:00 104 Progress in material properties for stainless powder for near net shape parts Björn-Olof Bengtsson, Carpenter Powder Products AB, Torshälla, Sweden 11:20 105 Properties of HIPed hyper duplex stainless steel Linn Larsson, Sandvik Materials Technology AB, Sandviken, Sweden 11:40 106 Properties of high alloyed stainless steel PM materials made by gas atomization and HIP Karin Jakobsson, Maria Saarinen, Erasteel Kloster AB, Söderfors, Sweden 12:00 107 Possible defects in PM HIP high alloy steels and ways to control them. Claes Tornberg, PM Consultant, Täby, Sweden 12:20 Lunch and Poster sessions
Session 1 C – Modelling 14:00 108 Implementation of finite element analysis to design capsules for the production of HIP PM near net shapes Virendra S Warke, Bodycote , Andover, United States 14:20 109 Comparison of the experimental and FEM simulation results for the manufacture of a valve body Yuto Nagamachi, Metal Technology Co. Ltd., Technical Center Technical Division Shake, Ebina City, Kanagawa, Japan 14:40 110 Simulation of Hot Isostatic powder Pressing for near net shaped components Hans-Åke Häggblad, , Luleå University of Technology, Mechanics of Materials, Luleå, Sweden 15:00 111 Using particle size distribution to predict packing factor and segregation tendencies Jane L LaGoy, Bodycote, Andover, United States 15:20 Coffee break and Poster sessions
Session 1 D – HIP process 16:00 112 The functional structuring of components via diffusion techniques during HIPing Geoff Archer, Advanced Interactive Materials Science Ltd, Peterborough, United Kingdom 16:20 113 Equipment (r)evolution of URQ/U2RC equipment Andreas Åkerberg, Avure Technologies, Västerås, Sweden 16:40 114 High speed filming of powder filling for Hot Isostatic Pressing (HIP) Keith Andrew Lorenz, The Manufacturing Technology Centre, MTC, Coventry, United Kingdom 17:00 115 Recent developments of HIP equipment in japan Katsumi Watanabe, Kobe Steel, Ltd., Takasago, Japan 17:20 End of the day 17:45 IHC-meeting (by invitation)
wednesday 11 June Session 2 A – Power Generation 08:30 201 HIP Technology for hard facing materials in nuclear power plants David Stewart, Rolls-Royce, Derby, United Kingdom 09:00 202 PM-HIP research, applications and technology gaps for the electric power industry David W. Gandy, Electric Power Research Institute, Charlotte, United States 09:30 203 Hot Isostatic Pressing for the production of bimetallic nozzle for nuclear application Benjamin Picqué, Aubert & Duval, Pamiers, France, Denis Cedat, AREVA, Le Creusot, France 10:00 204 Development of volumetrically efficient metal canisters for the encapsulation and consolidation of low packing density immobilised wasteforms Sam Moricca, Synroc, ANSTO, Lucas Heights, Australia 10:30 Coffee break and Poster sessions
Session 2 B – Materials 11:00 205 Influence of microstructure features on the dynamic and static mechanical properties of HIPed 17-4PH Alexander Angré, Swerea KIMAB, Stockholm, Sweden 11:20 206 The material characteristics of stainless steel manufactured by Hot Isostatic Pressing Klaudio Bari, University of Manchester, United Kingdom 11:40 207 HIP processing of nano-grained ferrous alloys: Opportunities provided by a new and novel microstructure Stephen J Mashl, Michigan Technological University, Houghton, United States 12:00 208 Surface oxide transformation during HIP of austenitic Fe-19Mn-18Cr-C-N PM steel Eduard Hryha, Chalmers University of Technology, Gothenburg, Sweden 12:20 Lunch and Poster sessions
Session 2 C – Materials 14:00 209 Porosity control of stainless steel 316L parts manufactured using capsule free Hot Isostatic Pressing Khamis Essa, University of Birmingham, United Kingdom 14:20 210 Investigation of HIP diffusion bonding of INVAR alloy to stainless steel Hideaki Ishii, Metal Technology Co. Ltd, Tokyo, Japan 14:40 211 The performance HIPed MMCs and their application Tomas Berglund, Sandvik Powder Solutions, Surahammar, Sweden 15:00 212 Development and manufacture of MMC HIP claddings for polymer extruder liners Wolfram Graf, Bodycote HIP GmbH, Haag-Winden, Germany 15:20 Coffee break and Poster sessions
Session 2 D – HIP process 16:00 213 Influence of industrial sheet surface finish on interface formation during HIP-bonding of austenitic stainless steel Nicolas Bouquet, CEA, Grenoble, France 16:20 214 Design, manufacturing, operation and safety aspects of forged high pressure vessels for HIP units. Pierre Colman, Engineered Pressure Systems Int. NV, Temse, Belgium 16:40 215 Measuring the gas content in HIP components and impurities in the argon- and chemical reacted gas used to compacting near net shape parts and castings. Presentation of the measurement technique. Beat Hofer, Hofer Werkstoff Marketing Beratung, Derendingen, Switzerland 17:00 End of the day 17:30 Departure for conference dinner at Vaxholm Castle
Thursday 12 June Session 3 A – Aerospace 08:30 301 Development of powder metallurgy titanium impellers Raphael Salapete, SNECMA, Vernon, France 09:00 302 A selective net-shape powder metal process for highperformance rocket engine components Stephen James, Aerojet Rocketdyne, Canoga Park, United States 09:30 303 HIP process modelling for net shape parts of rocket engine turbo pump Rei Mihara, IHI Corporation, Tokyo, Japan 10:00 304 Problems and development prospects of disks aircraft materials produced via the powder metallurgy technique and direct HIPing Genrikh Garibov, JSC ”VILS”, Moscow, Russian Federation 10:30 Coffee break and Poster sessions
Session 3 B – Materials 11:00 305 The hazards of manufacturing HIP’ed nickel base superalloys Louis William Lherbier, Carpenter Technology, Bridgeville, United States 11:20 306 Microstructure and properties of HIPed IN718 R.H.U. Khan, University of Birmingham, United Kingdom 11:40 307 The role of surface engineering in near net shaped hipped components of IN718 Iñigo Iturriza, CEIT, San Sebastián, Spain 12:00 308 The project development of HIPed bimetallic blisk with uncooled and cooled blades for gas turbine engine of difference Liubov Magerramova, Central Institute Aviation Motors, Moscow, Russian Federation 12:20 Lunch and Poster sessions 13:00 Session – Awards
Session 3 C – Materials / Modelling 14:00 309 HIPing of Pd-doped titanium components: A study of mechanical and corrosion properties Usama Attia, Manufacturing Technology Centre MTC, Coventry, United Kingdom 14:20 310 Challenges in reducing casting porosity in superalloys based on nickel and cobalt Stephan Huth, Ruhr-Universität Bochum, Germany 14:40 311 HIPing of large near net complex shape PM parts in one step without an experimental iteration: Design, modelling, methodology Benjamin Picqué, Aubert & Duval, Pamiers, France 15:00 312 Anisotropic shrinkage of Hot Isostatic Pressed components Chung Nguyen Van, RWTH, Aachen, Germany 15:20 Coffee break and Poster sessions
Session 3 D – HIP process 16:00 313 Temperature accuracy in HIP furnaces Johan Hjärne, Avure Technologies, Västerås, Sweden 16:20 314 Observations involving MIM product through the utilization of HIP Dennis Poor, Kittyhawk Products, Garden Grove, United States 16:40 315 Mechanical properties of Ti-6Al-4V materials prepared by additive manufacturing technology and HIP process Shotaro Morokoshi, Metal Technology Co, Ltd, Ebina City, Kanagawa, Japan 17:00 Closing speech 17:30 End of the day
speakers profile Session 1 A – Oil & gas Tuesday 10 June 09:00 Oil and gas end user experience on HIPed components Freddy Busschaert, TOTAL E&P, Technology Division Subsea Department, Pau, France Profile Freddy Busschaert is welding engineer and material & welding expert since 2002 in the Technology Division Total Exploration & Production. Materials engineer specialized in equipment for LNG, and deep offshore. Since 2 years, materials expert in the Subsea Department. Long experience of welding technologies, acquired at Spie Batignolles, Areva and EDF for the nuclear and power generation industry. Member of the French Welding Society (SIS) Abstract
Hipped components have been widely and successfully used in oil and gas industries during the last decades. The paper will present an overview of TOTAL E&P as an end user on the use of the duplex stainless steels HIPed components on deep offshore subsea projects The paper will detailed the main reasons on the use of HIPed components to be selected. Among these reasons, some are listed here below: – Good resistance to HISC – Austenite spacing in regard to DNV RP F112 standard applicable to subsea – Microstructure examination of duplex stainless steels with different etching reagents in order to reveal intermetallic phases or chromium nitrides – Capability to manufacture complex shapes of components – Project execution associated with local content activities – Low temperature challenges – Good weldability The paper will also present some typical products which have been manufactured and incorporated in subsea production systems and will highlight some challenges in regard with the future. Tuesday 10 June 09:30 Use of Hot Isostatic Pressed (HIP) duplex stainless steels for criticalsubsea applications Henrik Larsson, GE Oil & Gas, Materials & Process Engineering Department, Sandvika, Norway Profile With a M.Sc. in the field of metallurgy, Henrik Larsson is a material engineer in charge of material selection, welding’s and manufacturing activities since 2012 in GE Oil & Gas in Sandvika Norway. Also has a professional experience in the field of HIP process at Sandvik Powder Solutions in Surahammar Sweden and also experience in the field of process engineer (ESR process) at Uddeholm AB in Hagfors Sweden. Abstract
GE Oil & Gas has over the last 15 years utilized the Hot Isostatic Pressing (HIP) Process for a number of components for products and parts for subsea oil & gas equipment such as valve bodies, hub flanges, wye-pieces, Tee’s and header sections.
Since introduction of DNV RP F112 in 2008 and more development of HP-HT offshore oil & gas fields, HIP products have become more attractive when compared to e.g. forgings. The HIP process allows freedom in design to allow geometries and compact configurations which at the same time address stress & strain criteria in accordance to recommended practice DNV RP F112. Tuesday 10 June 10:00 Perspectives of the application of high strength nickel base alloysby HIP in rotating equipment for oil & gas industry Federico Iozzelli, GE Oil & Gas, Materials and Process Engineering, Firenze, Italy
Profile With a PhD in materials engineering, Federico Iozzelli joined GE Oil&Gas in 2005 as Materials & ProcessesLead Engineer. Federico has strong background in raw material special processes including investment casting, close die forging, sand casting, coating and powder metal by HIP. Federico is the Low Temperature MPE Manager since 2008. Abstract
One of the main challenges of oil&gas industry is facing more and more harsh environments that require increasing use of corrosion and heat-resistant alloys. Ni-base alloys like Inconel 625, and its variants, are currently applied for parts of centrifugal compressors. Anyway some designs are still very expensive or even not feasible to be achieved by conventional or non-conventional manufacturing solutions. Hot Isostatic Pressing is expected to overcome the above limitations and open new possibilities for production of Net-Shape or Near-Net Shape parts. Due to the requirements of quality and reliability of oil&gas market, the introduction of P/M parts consist in a complex process of assessment, characterization and development of the material (the powder), the HIP cycle and the product, including feasibility analysis and validation of the product. This paper is intended to show the main steps of the introduction of an impeller for centrifugal compressor made by Hot Isostatic Pressing. The topics covered are: the design of HIP tooling making use of state of art simulation methods, the optimization of the powder used and the development of non-destructive testing to verify the properties of the final part. The manufacturing process of HIP tooling is also considered. The paper also deal with the need to verify the applicability of HIP technology not limited to a single part but to a “family” of parts, using a design space partitioning approach.
speakers profile Session 2 A – Power generation Wednesday 11 June 08:30 HIP Technology for hard facing materials in nuclear power plants David Stewart, Rolls-Royce, Derby, United Kingdom Profile David Stewart is an Engineering Specialist in the Materials, Chemistry and Corrosion department of Rolls-Royce plc. He specializes in surface engineering, tribology and powder based technologies and currently manages a number of HIP-related work programmes. He graduated from the University of Nottingham with a PhD on studies of the sliding wear resistance of thermally sprayed conventional and nanocomposite WC-Co coatings and has worked previously in both the nuclear industry and the Rolls-Royce gas turbine manufacturing supply chain Abstract
Hard facing materials used for galling resistance in components such as valves in nuclear reactors have traditionally been based on the stellite family of alloys. These are carbide containing, cobaltbased materials which possess both corrosion resistance and wear resistance. However, corrosion of wear products from these materials may become activated in the neutron flux to form the cobalt-60 isotope which is a significant contributor to work force dose accumulation. As such there is a drive to change to low cobalt based alloys which possess the same corrosion and galling resistance, against the challenge of increasing plant lifetimes. The cobalt base alloy materials are typically weld deposited with the type of deposition method evolving over the years. This presentation will review the changes in both material and manufacturing for these applications and, specifically the introduction of HIP technology and the advantages that it brings. Wednesday 11 June 09:00 PM-HIP research, applications and technology gaps for the electric power industry David W. Gandy, Electric Power Research Institute, Charlotte, United States Profile David Gandy is a Technical Executive within EPRI’s Nuclear Materials area. He is currently leading EPRI’s PM-HIP research which incorporates projects across both fossil and nuclear related programs. Mr Gandy is a ASM Internal Fellow and has 30 years of experience in the Power Industry.
Abstract
The Electric Power Research Institute (EPRI) and Carpenter Technology have partnered with several valve manufacturers to develop ASME Boiler and Pressure Vessel Code Cases and Data Packages for two alloys produced by powder metallurgy and Hot Isostatic Processing (PM-HIP): Grade 91 (UNS K90901) and Type 316L Stainless Steel (UNS S31603). The two alloys are mainstay materials in the fossil and nuclear industries, respectively, for piping, valves, pump housings, and other pressure retaining applications. This paper reviews the two Code Cases and discusses the application of PM-HIP technology to other alloys and components of interest to the electric power industry. Potential alloy applications range
from conventional low alloy steels for pressure vessels, nozzles, or piping applications, to nickel-based alloys for nuclear vessel internals and ultra-supercritical component applications, to hard-facing alloys for wear applications, and to alloys for higher temperature reactors, etc. The major commonalities among these materials include: 1) data generation and acceptance by the applicable Code and regulatory body and 2) the large size of many of these components which are currently restricted by the size of the HIP vessel. This paper will attempt to identify not only the PM-HIP equipment and ancillary needs required for the electric power industry, but will also define several of the current gaps in the technology faced by this industry. Lastly, it will provide a Roadmap for industry to achieve greater acceptance and use of PM-HIP for pressure retaining applications. Wednesday 11 June 09:30 Hot Isostatic Pressing for the production of bimetallic nozzle for nuclear application Benjamin Picqué, Aubert & Duval, Pamiers, France, Denis Cedat, AREVA, Le Creusot, France Profiles Benjamin Picqué. After a PhD Thesis in the Ecole des Mines de Paris (Sophia-Antipolis) in the field of materials & numerical modelling, Benjamin Picqué has firstly been in charge of the R&D department (2004-2008) and of the Technical Development department for jet engine components (2008 -2012) at Aubert & Duval, specialized in new materials and hot transformation processes in Pamiers plant. Since end of 2012, he is in charge of the technical development of the Net Net Shape and Net Shape HIP parts activity. Denis Cedat. With a PhD thesis in the field of materials& mechanics (2005-2008), Denis Cedat is a Metallurgy & Powder metallurgy Expert since 2010 in Areva Technical Center in Le Creusot, France.
Abstract
The research and development ENERPOUDRE program aims at replacing the current method of coated manufacturing forgings by a new process using the Hot Isostatic Pressing (HIP) in order to achieve significant productivity gains. Indeed, this method provides directly, from metal powders put in a container and compacted at high temperature under high pressure, bimetallic near net shape parts, having at least forgings properties. The part of the study is a bimetallic Surge Nozzle (AREVA NP application), made of low alloy steel powders for the body and stainless steel powders for the coating layer. The HIP process is innovative and offers many benefits versus the conventional forging process with a simplification of the future production route, a better controllability of the part and a shorter lead-time by reducing machining and welding operations. This paper reviews the powder manufacturing, the part process, the numerical modelling results for calculation of hipping deformations, the ultrasonic tests and the design of parts produced with the mechanical characteristics obtained.
speakers profile Wednesday 11 June 10:00 Development of volumetrically efficient metal canisters for the encapsulation and consolidation of low packing density immobilised wasteforms Sam Moricca, Synroc, ANSTO, Lucas Heights, Australia
Session 3 A – Aerospace Thursday 12 June 08:30 Development of powder metallurgy titanium impellers Raphael Salapete, SNECMA, Vernon, France Profile With a PhD thesis in the field of materials mechanics, Raphael Salapete is in charge of powder metallurgy activities for titanium alloys since 7 years in SNECMA Space Engine division.
Abstract
SNECMA has started the development of a new rocket engine for upper stage applications; its name is VINCI. The liquid hydrogen turbopump is two-stage centrifugal including one shrouded impeller per stage and the max peripheral speed is 600 m/s. The cost is the main criterion for the turbopump design. Isoprec®, a new net shape powder metallurgy process developed in a team including Snecma has been chosen for these components production. For turbopump impeller application the expected benefits of this process are: – machining simplifications by obtaining Net-Shape surfaces (vanes), – high dimensional reproducibility, – good as-HIP material properties. Thursday 12 June 09:00 A selective net-shape powder metal process for high-performance rocket engine components Stephen James, Aerojet Rocketdyne, Canoga Park, United States Profile With over 30 years of non-destructive evaluation methods and techniques, Steve James has worked in developing powder metallurgy parts and ultra sonic reference specimens and standards for 10 years in Aerojet Rocketdyne Company.
Abstract
Liquid rocket engine performance has historically been constrained by the limitations of materials and processes used for high value component fabrication. Traditional manufacturing processes, such as five axes machining from complex forgings and welding of multiple details, are expensive because of the difficulty to fabricate the materials needed, the complexity of the designs and the low production quantities typically associated with liquid rocket engines.
In recent years, there has been considerable focus on reducing production costs, while at the same time increasing engine performance efficiency. Recognizing these cost drivers and design limitations, Aerojet Rocketdyne has been exploring various powder-metal-based processes as potential approaches to lowering costs as well as enabling unique design approaches. Direct-Hot Isotropic Pressure powder consolidation is one of the processes that provides opportunities for many cost, performance and life benefits over traditional manufacturing processes. This method employs sacrificial metallic tooling which functions much like a casting mold to create the expensive machine geometries and is then removed from the part by selective acid dissolution after HIP consolidation of the powder. The benefits of this process include: a uniform microstructure and isotropic properties irrespective of part size and shape; elimination of welds and their associated quality and life limitations; removal of traditional producibility constraints on design freedom; scale-up to large, monolithic parts limited only by the size of existing HIP furnaces; and significantly lower production costs over traditional manufacturing processes. A review of the process showing demonstration components (static and rotating) with application to liquid rocket engines will be described in this presentation. Thursday 12 June 09:30 HIP process modelling for net shape parts of rocket engine turbopump Rei Mihara, IHI Corporation, Tokyo, Japan Profile Rei Mihara is a mechanical engineer in charge of Powder Metallurgy activities for 9 years in IHI Corporation. Also has a professional experience in the field of Material and Structural Design for the Rocket Engine Turbopump. Abstract
The Net Shape HIP process is a suitable approach for both high performance and cost reduction compared to the casting and the machiningof forging material, especially for rocket engine turbopump parts. This is because these parts need excellent material properties and high reliability in spite of relatively low production volume. IHI has developed the HIP process modelling tool to predict a dimension of parts after the metal powder compaction at HIP process based on the FEM analysis, which is expected to utilize for manufacturing of rocket engine turbopump parts. The effectiveness of this tool was confirmed by applying to a turbine nozzle with complex shaped blades and by evaluating the difference of dimension between prediction and manufacturing. Furthermore, material data of Ni-base superalloy, which is mainly used for turbopump parts, was acquired to validate the HIP process in terms of the material property. The result shows excellent characteristics in regard to the casting and forging material.
speakers profile Thursday 12 June 10:00 Problems and development prospects of disks aircraft materials produced via the powder metallurgy technique and direct HIPing Genrikh Garibov, JSC ”VILS”, Moscow, Russian Federation Profile Dr Genrikh Garibov is a member of International, Russian and Armenian Engineering Academy. From 1996 - member of American Powder Metallurgy Institute (APMI). From 2000 - member of ASM International. In 2001 he became a member of International HIP Committee IHC. He is a head of Research complex of VILS (All-Russia Institute of Light alloys).
The most promising trends in development of Russian P/M disk Ni-base superalloys are outlined and substantiated: a further complication and improvement of alloying, a reduction in size of powder to be used and production of disks with functionally gradient properties.
Abstract
Main problems have been successfully solved and are being solved in the field of the powder metallurgy of disk Ni-base superalloys and related to elimination of powder particle boundaries and a cast structures, as well as a reduction in number and size of non-metallic inclusions in powder bulk are discussed. It is shown that development of a recrystallized structure without powder particle boundaries during HIPing is an essential precondition for production of a monolithic structurally and chemically homogeneous fine-grained material which does not require subsequent plastic working. It has been found that development of such structure depends on a HIP temperature, powder size and a temperature of complete dissolution of γ’ phase (Tγ’) of the superalloys to be used. An approach to specification of HIP conditions depending on a temperature of complete dissolution of γ’ phase, size of powder to be used and desired mechanical properties is presented. Examples are shown.
Welcome reception on June 9 at the Vasa Museum
Conference dinner on 11 June will take place at the old Vaxholm Castle
poster sessions Tuesday 10 June Poster session P1 10:30 401 Near net shape fabrication of high nitrogen steels by Hot Isostatic Pressing Xuebing Wang, Advanced Technology & Materials Co. Ltd., Beijing, China 10:40 402 Ways of influencing and modificating the cyclic lifetime of an aluminium cylinder head alloy AlSi6Cu4 Christian Kliemt, IABG mbH, Ottobrunn, Germany 10:50 403 Advanced P/M HIP compound products and prototypes Martin Östlund, Sandvik Materials Technology, Sandviken, Sweden
Poster session P2
13:30 404 Continuous Hot Isostatic Pressing - is it feasible? Kumar Y. V. S., Sharda University, Greater Noida, India 13:40 405 Heat treatment in a Hot Isostatic Press Magnus Ahlfors, Avure Technologies, Västerås, Sweden 13:50 406 Widening of the field of application of the AS-HIP technique in metallurgy Sergey Katukov, JSC ”VILS”, Moscow, Russian Federation
Poster session P3
15:20 407 Large-scale ultra-high temperature HIP Deming Zhang, China Iron & Steel Research Institute Group (CISRI), Beijing, China 15:30 408 Numerical calculations of URQ/U2RC - Confirming the benefits and possibilities of HIP-quenching Andreas Åkerberg, Avure Technologies, Västerås, Sweden 15:40 409 The history of Avure HIP systems Stefan Sehlstedt, Avure Technologies, Västerås, Sweden 15:50 410 Cancelled
Wednesday 11 June Poster session P4 10:30 411 HIP technology for the safe long term treatment of radioactive waste Sam Moricca, Synroc, ANSTO, Lucas Heights, Australia 10:40 412 Densification of Zr-ZrO2 simulated inert matrix nuclear fuel pellet Young Woo Rhee, Korea Atomic Energy Research Institute, Daejeon, Republic of Korea 10:50 413 HIPed Cu-graphite composites for sliding applications Jaroslav Kovacik, Slovak Academy of Sciences, Bratislava, Slovakia
Poster session P5
13:30 414 Fabrication of super electromagnetic coil support using HIP diffusion bonding Masakazu Takahashi, Metal Technology Co. Ltd., Himeji, Japan
13:40 415 Structural and technological principles of Hot Isostatic Pressing for castings from Ni-, Ti-, and Al-base alloys. Victor Butrim, Open Joint Stock Company ”Kompozit”, Korolev, Russian Federation 13:50 416 Influence of powder particle size distribution on the microstructure and mechanical properties of a HIPed CM247LC Ni superalloy J MacDonald, University of Birmingham, United Kingdom
Poster session P6
15:20 417 Fabrication of dense Al2O3/Tin/CNF composites using both HIP and pulsed electric-current pressure sintering (PECPS) Ken Hirota, Doshisha University, Kyoto, Japan 15:30 418 The difference between URQ and U2RC Anders Åkerberg, Avure Technologies, Västerås, Sweden 15:40 419 Discussion on the mechanism of micro-element HF eliminating PPBs in powder metallurgy superalloy Yiwen Zhang, Central Iron and Steel Research Institute, Beijing, China 15:50 420 Cancelled
Thursday 12 June Poster session P7 10:30 421 Design and manufacturing of large-size ring blanks from a Ni-base superalloy by HIP based on mathematical modelling Evgeny Khomyakov, Synertech PM, Inc., Garden Grove, United States 10:40 422 Development of an innovative processing technique for production of pilot bimetallic disks in finely dispersed VVP-class Ni-base superalloy powder Alexandra Bocharova, JSC ”VILS”, Moscow, Russian Federation 10:50 423 Technological features of the production stages of various purpose details from titanium alloys using Hot Isostatic Pressuring and metallurgy of granulate Georgy Demchenkov, NIIchimmash, Moscow, Russian Federation
Poster session P8
15:20 424 An optimized HIP and heat treatment technology for production of P/M Ni-base superalloy turbine disks Alexander Volkov, JSC ”VILS”, Moscow, Russian Federation 15:30 425 P/M VVP-class Ni-base superalloy disks with a dual structure and functionally gradient properties manufactured by direct HIP Alexey Kazberovich, JSC ”VILS”, Moscow, Russian Federation 15:40 426 Production of P/M large size VT25UP titanium alloy disks via the AS-HIP technique and investigation of their quality Sergey Katukov, JSC ”VILS”, Moscow, Russian Federation 15:50 427 Investigation in the field of physico-mechanical properties and a structure of new Ni-base superalloy powder Alexey Vostrikov, JSC ”VILS”, Moscow, Russian Federation
General Information Please register for the conference at www.hip14.se
Conference Venue The conference venue Clarion Hotel Sign is located at Östra Järnvägs gatan 35 by Norra Bantorget in central Stockholm within walking distance to the City Terminal where the trains and the coaches from the airports stop and also within walking distance to the conference hotels.
Conference fee Fee: 8 700 SEK excl. VAT (10 875 SEK incl. VAT) On-site registration fee: 9 700 SEK excl. VAT (12 125 SEK incl. VAT) Fee for full time students: 2 000 SEK excl. VAT (2 500 SEK incl.VAT) Included in the fee are: Proceedings, welcome reception, lunches, coffee breaks and exhibition
Accommodation Hotel rooms have been pre-booked for the delegates at the Clarion Hotel Sign, but also at another hotel in a lower price category. This hotel is located within walking distance to the conference venue. You make your reservation on the on-line registration form on www.hip14.se.
Proceedings The Proceedings, with all accepted papers and posters, will be given to the delegates at the registration desk, both as a USB-memory and as a printed book.
Language The conference language is English. No interpretation is provided.
Conference Secretariat: For questions about registration and accommodation MCI Stockholm
[email protected] +46 8 54 65 15 00
Registration Desk – Opening hours Monday 9 June Tuesday 10 June Wednesday 11 June Thursday 12 June
17.00–20.00 08.00–18.00 08.00–18.00 08.00–18.00
Welcome reception – 9 June A welcome reception will be held on Monday 9 June at the Vasa museum. Please report your participation on the registration form. The welcome reception takes place between 19.00 and 22.30. No dress code. The cost is included in the conference fee. Spouses are also welcome for a separate fee, 800 SEK excl. VAT (1000 SEK incl. VAT). More information on www.hip14.se.
Conference dinner – 11 June The conference dinner takes place on Wednesday 11 June at the old Vaxholm Castle, which will be reached after a one hour’s journey by boat through the inner archipelago of Stockholm. Please note that at this time of the year, the sun goes down at 22.00 and up again at 3.30. There will be bus transportation at 17.30 from the conference venue after the end of the sessions, to Nybroviken sight-seeing boat harbor. Please report your participation on the registration form. The fee is 1 300 SEK excl. VAT (1 625 SEK incl. VAT). More information on www.hip14.se.
Exhibition An exhibition will be arranged. In this area there will be an excellent opportunity for plant manufacturers, suppliers and producers to present their recent developments, products and services. Most importantly, this will be the place to mingle and network with your fellow conference participants during the breaks between the presentations. Those who want to take part as exhibitors, find more information on www.hip14.se.
Plant visits – 13 June – Optimal There will be arranged plant visits to: • Avure Technologies in Västerås • Bodycote Hot Isostatic Pressing in Surahammar • Carpenter Powder Products in Torshälla • Erasteel in Söderfors Detailed information is on www.hip14.se.
Overview schedule Time Monday 9 Tuesday 10 Wednesday 11 Thursday 12 Friday 13 7.30 Registration 8.00 Departure to Plant visits 8.30 Opening Power Aerospace Generation 9.00 Oil & Gas 10.30 Break Break Break 11.00 Materials Materials Materials 12.20 Lunch Lunch Lunch 13.00 Awards 14.00 Modelling Materials Materials Modelling 15.20 Break Break Break 16.00 HIP process HIP process HIP process 17.00 Registration End (17.20) End Closing until 20.00 session 17.30 IHC meeting To Conference End dinner 19.00 Welcome reception
Travelling to Stockholm Stockholm Arlanda Airport is located about 70 kilometres north of Stockholm City and there are several alternatives for you to get from and to the airport: Arlanda Express is the train service that links Stockholm City with the Airport (20 minutes trip). Book your Arlanda Express ticket in advance at the same time you register to the conference. Your confirmation letter will serve as a ticket when presented to the train conductor. Taxi. We strongly recommend that you request a fixed price from a taxi host, for the trip from the airport to the city, approximately 500 SEK. Coach/Bus. There is a direct bus connection from the Airport to the city. The trip takes 40 minutes and costs 99 SEK. All prices are those valid in January 2014. Information about the other airports, Stockholm Skavsta Airport, Stockholm-Bromma City Airport can be found at www.hip14.se. There is daily ferry service from Helsinki to Stockholm as well as from Turku to Stockholm, and Sweden has a very expansive train network connecting most of the larger Swedish cities with the capital.
Insurance and Liability Neither the conference organizers nor the conference secretariat accept any liability for personal injuries sustained, or for loss or damage to property belonging to conference participants, either during or as a result of the conference.
Tourist Information For tourist information about Stockholm and Sweden, please visit the website: www.stockholmtown.com, or contact the Tourist Centre on phone: +46 8 508 28 508 or
[email protected].
Local Organising Committee Gert Nilson, Jernkontoret, Local Organising Committee Chairman For other members, see the conference web site, www.hip14.se
Programme Committee Adeline Riou, Erasteel, France, Programme Chairman Carl-Gustaf Hjorth, Sandvik Materials Technology, Sweden, Conference Chairman Björn Olof Bengtsson, Carpenter Powder Products, Sweden Frederic Bernard, Université de Bourgogne ICB, France Rickard Sandberg, Sandvik Powder Solutions, Sweden Christoph Broeckmann. RWTH Aachen, Germany Anders Eklund, Avure Technologies, Sweden Wendy Fredriksson, Bodycote, Sweden Karin Frisk, Swerea KIMAB, Sweden Yushiro Yamamuto, Metal Technology Co, Japan Hans-Åke Häggblad, Luleå University of Technology, Sweden Ken Hirota, Doshisha University, Japan Chen Hongxia, CISRI, China Mike Loretto, University of Birmingham, United Kingdom Stephen J Mashl, Michigan Technological University, USA Sam Moricca, ANSTO, Australia Koji Nakazaki, Metal Technology Co, Japan Lars Nyborg, Chalmers University of Technology, Sweden Victor Samarov, Synertech, USA Pekka Siitonen, Metso Minerals, Finland Annika Strondl, Swerea KIMAB, Sweden Stefan Sundin, Erasteel, Sweden Xinhua Wu, Monash University, Australia
Dates
Clarion Hotel Sign 9–13 June 2014 Box 310 Östra Järnvägsgatan 35/Norra Bantorget SE-101 26 STOCKHOLM Phone: +46 8 676 98 00 Fax: +46 8 676 98 99 E-mail:
[email protected] www.clarionsign.com
Conference Secretariat
Organisational secretariat
MCI Stockholm Email: confirmation@ mci-group.com Phone: +46 8 5465 1500
Jernkontoret Box 1721 SE-111 87 STOCKHOLM Phone: +46 8 679 17 26, Armi Kortelainen E-mail:
[email protected]
General Secretary Sven Sundberg
[email protected] +46 70 640 52 89
www.hotisostaticpressing.net
jernkontoret Since its foundation back in 1747, Jernkontoret (The Swedish Steel Producers’ Association) has been owned jointly by the Swedish steel companies. Jernkontoret represents Sweden’s steel industry on issues that relate to education, trade policy, research and development, standardisation, energy and the environment as well as taxes and levies. Jernkontoret also manages the joint Nordic research in the steel industry. In addition, Jernkontoret draws up statistical information relating to the industry and carries on research into the history of mining and metallurgy. www.jernkontoret.se
www.wintjens.se
Venue
The International HIP Committee, IHC By the late 1970’s and 1980’s the technology and the HIP industry grew to a level where international technical conferences were being held. One series of conferences were held in the United Kingdom sponsored by the technical periodical, “Metal Powder Report”. A second series of conferences, sometimes called the “Luleå conferences”, after the site of the first of those conferences, began. Between 1986 and 1990, there were international HIP conferences being held every year but one, and, while there was never any direct conflict between the two conference series, the technical HIP community was relatively small and the interval between one international technical meeting and the next was seen by some as being too short. At the 1991 conference in Japan it was suggested that the two series be combined into one and that a committee be formed for the purpose of organising future HIP conferences. In 1993, the first in a series of triennial meetings, organised by the committee IHC, was begun. The primary purpose of IHC remains the organisation of the triennial HIP conference.
