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HOT ISOSTATIC PRESSING or HIP is a consolidation technique in powder metallurgy. It is explained with principle and working with applications and advantages. A short process video is embedded
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HOT ISOSTATIC PRESSINGMuhammed Labeeb
CONTENTS
▪ INTRODUCTION
▪ NEED
▪ PROCESS
▪ EQUIPMENTS
▪ ADVANTAGES AND LIMITATION
▪ REFERENCE
INTRODUCTION
▪ Hot isostatic pressing (HIP) is a powder metallurgy technique
▪ HIP is used to reduce the porosity of metals and increase the density of many ceramic materials
▪ This improves the material's mechanical properties and workability
▪ Process uses the combination of high temperatures and high pressures to densify engineering ceramics and hard metals
▪ Pressures of up to 207 MPa (30,000 psi) may be used with the temperature of operation being as high as 2000°C (3,632°F)
▪ Typically, an inert gas (Argon or Nitrogen) is used within the pressure vessel to ensure that pressure is applied uniformly from all sides (Isostatic Pressure)
NEED FOR HIP
Influence of porosity (density) on impact strength and tensile strength of P/M materials.
The effect of porosity on fatique strength
NEED FOR HIP
▪ Permissible porosity depends on application field
▪ Higher loads call for higher density
▪ Conventional P/M technology (press- and -sinter technology) in most cases doesn`t enable to achieve full density.
▪ Hot consolidation processes (hot pressing, HIP, extrusion etc) enable to produce full-density or near full-density or near full-density powder materials/products
▪ The primary use of HIP is to increase the density of the material and increase the strength and reliability of the components
HIP
▪ In hot isostatic pressing (HIP), the container is made of a high-melting-point sheet metal and the pressurizing medium is a high-temperature inert gas
▪ Originally Helium and now Argon is used as pressurizing medium
▪ Total pressure = pressure due to heating + applied pressure(dependent on load)
▪ Pressure vessel requires high fatigue and creep resistance.
▪ Should be immune to heating, dwell and cooling periods, coolant/failure of cooling system.
PROCESS
HIP
THERMOCOUPLES
PRESSURE SYSTEM
HEATING ELEMENTSFURNACE
PRESSURE VESSEL
HIPEQUIPMENT
APPLICATIONS
▪ Silicon Nitride Ball Bearings
▪ Body Armour
▪ Zirconia and Alumina Dental implants
▪ Multi-Layer Capacitors
▪ Downhole Oilfield Components
▪ Sputtering Targets
ADVANTAGES
▪ Materials/products of higher performance
▪ The HIP is near-net shape process
▪ Lower unit costs of large parts and production volumes of small-weight parts
▪ Produces fully dense compacts of uniform grain structure and density
▪ Decreased scatter and recovery of defective parts.
▪ Improved ductility and impact strength.
▪ Fine grains
LIMITATIONS
▪ Materials/products of higher performance
▪ The HIP is near-net shape process
▪ Lower unit costs of large parts and production volumes of small-weight parts
▪ Produces fully dense compacts of uniform grain structure and density
REFERENCE
▪ http://en.wikipedia.org/wiki/Hot_isostatic_pressing
▪ http://www.azom.com/article.aspx?ArticleID=5769
![Isostatic Pressing - PickPM · About Isostatic Pressing?]The fluid pressure acts uniformly in all directions. ... Advantages of HIP PM]Fine structure, isotropic properties]](https://img.pdfslide.net/doc/110x75/5b30fc137f8b9ae1108b5935/isostatic-pressing-pickpm-about-isostatic-pressingthe-fluid-pressure-acts.jpg)
![Hot Isostatic Pressing and Alteration of Ceramics ... · [3] –Steven W. Shaw, Bruce Begg, Sam Moricca, Ken Bateman, “ Design features to facilitate hot isostatic Pressing in remote](https://img.pdfslide.net/doc/110x75/610951e3b7dbf03fd85d9422/hot-isostatic-pressing-and-alteration-of-ceramics-3-asteven-w-shaw-bruce.jpg)
