Pj Goodhew
Specimen Preparation for Transmission Electron Microscopy of Materials
Pj Goodhew
Specimen Preparation for Transmission Electron Microscopy of Materials
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- Produkterinnerung
- Produkterinnerung
Details the essential practical steps which must precede microscopy
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Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 46
- Erscheinungstermin: 16. August 1984
- Englisch
- Abmessung: 234mm x 156mm x 3mm
- Gewicht: 82g
- ISBN-13: 9780198564034
- ISBN-10: 0198564031
- Artikelnr.: 22601027
- Verlag: CRC Press
- Seitenzahl: 46
- Erscheinungstermin: 16. August 1984
- Englisch
- Abmessung: 234mm x 156mm x 3mm
- Gewicht: 82g
- ISBN-13: 9780198564034
- ISBN-10: 0198564031
- Artikelnr.: 22601027
Department of Materials Science and Engineering, University of Surrey.
1 The specimen: what we are trying to achieve
1.1 Thinking ahead
1.2 The ideal specimen
2 Initial preparation of sheet or disc
2.1 Cutting the slice
2.2 Preparing flat faces
2.3 Chemical thinning solutions
2.4 Making a disc
3 Final thinning
3.1 Electropolishing
3.2 Thinning a sheet: the window technique
3.3 Thinning a disc: the automatic jet polisher
3.4 Recipes for electropolishing
3.5 Ion beam thinning
3.6 Other final thinning techniques
3.7 Thinning specific regions of a sample
3.8 Thin foils from just beneath the surface
3.9 Cross
sections perpendicular to the original surface
4 Replicas
4.1 The role of the replica in modern microscopy
4.2 The extraction replica
5 Mounting and storing specimens
5.1 Grids
5.2 Disc specimens
5.3 Thinned foils
5.4 Support films
5.5 Specimen storage
Appendix. Materials and suppliers
References
Index.
1.1 Thinking ahead
1.2 The ideal specimen
2 Initial preparation of sheet or disc
2.1 Cutting the slice
2.2 Preparing flat faces
2.3 Chemical thinning solutions
2.4 Making a disc
3 Final thinning
3.1 Electropolishing
3.2 Thinning a sheet: the window technique
3.3 Thinning a disc: the automatic jet polisher
3.4 Recipes for electropolishing
3.5 Ion beam thinning
3.6 Other final thinning techniques
3.7 Thinning specific regions of a sample
3.8 Thin foils from just beneath the surface
3.9 Cross
sections perpendicular to the original surface
4 Replicas
4.1 The role of the replica in modern microscopy
4.2 The extraction replica
5 Mounting and storing specimens
5.1 Grids
5.2 Disc specimens
5.3 Thinned foils
5.4 Support films
5.5 Specimen storage
Appendix. Materials and suppliers
References
Index.
1 The specimen: what we are trying to achieve
1.1 Thinking ahead
1.2 The ideal specimen
2 Initial preparation of sheet or disc
2.1 Cutting the slice
2.2 Preparing flat faces
2.3 Chemical thinning solutions
2.4 Making a disc
3 Final thinning
3.1 Electropolishing
3.2 Thinning a sheet: the window technique
3.3 Thinning a disc: the automatic jet polisher
3.4 Recipes for electropolishing
3.5 Ion beam thinning
3.6 Other final thinning techniques
3.7 Thinning specific regions of a sample
3.8 Thin foils from just beneath the surface
3.9 Cross
sections perpendicular to the original surface
4 Replicas
4.1 The role of the replica in modern microscopy
4.2 The extraction replica
5 Mounting and storing specimens
5.1 Grids
5.2 Disc specimens
5.3 Thinned foils
5.4 Support films
5.5 Specimen storage
Appendix. Materials and suppliers
References
Index.
1.1 Thinking ahead
1.2 The ideal specimen
2 Initial preparation of sheet or disc
2.1 Cutting the slice
2.2 Preparing flat faces
2.3 Chemical thinning solutions
2.4 Making a disc
3 Final thinning
3.1 Electropolishing
3.2 Thinning a sheet: the window technique
3.3 Thinning a disc: the automatic jet polisher
3.4 Recipes for electropolishing
3.5 Ion beam thinning
3.6 Other final thinning techniques
3.7 Thinning specific regions of a sample
3.8 Thin foils from just beneath the surface
3.9 Cross
sections perpendicular to the original surface
4 Replicas
4.1 The role of the replica in modern microscopy
4.2 The extraction replica
5 Mounting and storing specimens
5.1 Grids
5.2 Disc specimens
5.3 Thinned foils
5.4 Support films
5.5 Specimen storage
Appendix. Materials and suppliers
References
Index.