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Hot Explosive Pressing of High Strength and Superhard Materials by R

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Presentation on theme: "Hot Explosive Pressing of High Strength and Superhard Materials by R"— Presentation transcript:

1 Hot Explosive Pressing of High Strength and Superhard Materials by R
Hot Explosive Pressing of High Strength and Superhard Materials by R. Prümmer, Germany and K. Hokamoto, Japan EPNM-2008 May 5-9, Lisse

2 Why Hot Expl. Pressing? HIP CEP HEP limited unlimited long short high
Hot Isost.Press CEP Cold Expl.Press HEP Hot Expl. Press. Pressure limited unlimited Duration long short several microsec. Diffusion high Plastic deformation low medium Melting,leading to welding no locally very high

3

4 HEP Udimet 700 Ni-base Superalloy

5 Composition of several Nickel based Superalloys

6 Atomization of Udimet 700 - Powder

7

8 Density of Sample after HEP of Udimet 700- Powder

9 Hardness of Samples vs. Temperature of HEP

10 Micrograph of Sample showing surface melting
10

11 Strength of Sample vs. Temperature of HEP
13 Strength of Sample vs. Temperature of HEP Diamond Powder 4-8 micrometer grain size

12 HEP Diamond Powder, 4-8 um grain size

13 Principle of Set-up for HEP

14 Set-up for HEP

15 Sample Set -up High pressure due to mach stem and end plug

16 Sample, longitudinally cut open

17 Micrograph of polished Surface of Diamond Compact

18 Scanning Electron Micrograph of Fracture Surface

19 X-ray Diffraction Pattern of Diamond Powder and Compact
As-received X-ray Diffraction Pattern of Diamond Powder and Compact as delivered: black, after heat treatment: blue; compacted: red

20 b sin(q/l) ・107 (m-1) Slope; Lattice strain sin(q/l) ・1010 (m-1) Hall-Williamson Plot of Diamond Powder and Compact

21 Conclusions The effects of the use of hot explosive pressing are demonstrated at the present investigation for Udimet 700 and diamond powders. Surface melting and softening the powders improves the condition of compaction, and the compacts recovered show improved mechanical properties and the crystalline lattice strain.

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