Details
Titel in Übersetzung | The preparation of metallic joinings to optimise their topography |
---|---|
Originalsprache | Deutsch |
Seiten (von - bis) | 491-500 |
Seitenumfang | 10 |
Fachzeitschrift | Praktische Metallographie/Practical Metallography |
Jahrgang | 50 |
Ausgabenummer | 7 |
Publikationsstatus | Veröffentlicht - 2013 |
Abstract
Modern light structures increasingly require different alloys or metals to be joined with one another in the form of composite materials [1], As a result of their different melting temperatures or of the formation of brittle inter-metallic phases, many combinations of metals cannot be produced using thermal methods. One alternative, however, is the use of solid state welding such as explosive or magnetic impulse welding [2; 3] The examination and analysis of the bonding interfaces is therefore of central importance in the evaluation of the quality of the bond produced Scanning electron microscopy together with electron probe microanalysis of the characteristic X-rays emitted using EDX and WDX techniques can reveal information regarding the distribution of the metals present within the bonding interface [4], the presence of inter-metallic phases [5] and of areas of inadequate bonding For an accurate evaluation of the characteristic X-rays produced, however, the surface of the specimen must be guaranteed to be both flat and smooth in order to prevent the effects of shadowing and deflection of the primary beam which might otherwise cause erroneous results in the elements present and their distribution [6]. A specimen surface which is not perfectly flat also makes it difficult to focus the electron beam. The simultaneous flat and smooth preparation of metallic composites which have very different strength and hardness properties is very difficult due to the different rates of removal of material during grinding and polishing [7; 8]. In view of this, the following methods of preparation used to produce flat and smooth specimen surfaces on two types of metallic joinings are presented.
ASJC Scopus Sachgebiete
- Werkstoffwissenschaften (insg.)
- Elektronische, optische und magnetische Materialien
- Physik und Astronomie (insg.)
- Physik der kondensierten Materie
- Ingenieurwesen (insg.)
- Werkstoffmechanik
- Werkstoffwissenschaften (insg.)
- Metalle und Legierungen
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in: Praktische Metallographie/Practical Metallography, Jahrgang 50, Nr. 7, 2013, S. 491-500.
Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review
}
TY - JOUR
T1 - Topographieoptimierende Präparation metallischer Werkstoffverbunde
AU - Herbst, S.
AU - Jablonik, L.
AU - Gerstein, G.
AU - Nürnberger, F.
AU - Bach, F. W.
PY - 2013
Y1 - 2013
N2 - Modern light structures increasingly require different alloys or metals to be joined with one another in the form of composite materials [1], As a result of their different melting temperatures or of the formation of brittle inter-metallic phases, many combinations of metals cannot be produced using thermal methods. One alternative, however, is the use of solid state welding such as explosive or magnetic impulse welding [2; 3] The examination and analysis of the bonding interfaces is therefore of central importance in the evaluation of the quality of the bond produced Scanning electron microscopy together with electron probe microanalysis of the characteristic X-rays emitted using EDX and WDX techniques can reveal information regarding the distribution of the metals present within the bonding interface [4], the presence of inter-metallic phases [5] and of areas of inadequate bonding For an accurate evaluation of the characteristic X-rays produced, however, the surface of the specimen must be guaranteed to be both flat and smooth in order to prevent the effects of shadowing and deflection of the primary beam which might otherwise cause erroneous results in the elements present and their distribution [6]. A specimen surface which is not perfectly flat also makes it difficult to focus the electron beam. The simultaneous flat and smooth preparation of metallic composites which have very different strength and hardness properties is very difficult due to the different rates of removal of material during grinding and polishing [7; 8]. In view of this, the following methods of preparation used to produce flat and smooth specimen surfaces on two types of metallic joinings are presented.
AB - Modern light structures increasingly require different alloys or metals to be joined with one another in the form of composite materials [1], As a result of their different melting temperatures or of the formation of brittle inter-metallic phases, many combinations of metals cannot be produced using thermal methods. One alternative, however, is the use of solid state welding such as explosive or magnetic impulse welding [2; 3] The examination and analysis of the bonding interfaces is therefore of central importance in the evaluation of the quality of the bond produced Scanning electron microscopy together with electron probe microanalysis of the characteristic X-rays emitted using EDX and WDX techniques can reveal information regarding the distribution of the metals present within the bonding interface [4], the presence of inter-metallic phases [5] and of areas of inadequate bonding For an accurate evaluation of the characteristic X-rays produced, however, the surface of the specimen must be guaranteed to be both flat and smooth in order to prevent the effects of shadowing and deflection of the primary beam which might otherwise cause erroneous results in the elements present and their distribution [6]. A specimen surface which is not perfectly flat also makes it difficult to focus the electron beam. The simultaneous flat and smooth preparation of metallic composites which have very different strength and hardness properties is very difficult due to the different rates of removal of material during grinding and polishing [7; 8]. In view of this, the following methods of preparation used to produce flat and smooth specimen surfaces on two types of metallic joinings are presented.
UR - http://www.scopus.com/inward/record.url?scp=84881013301&partnerID=8YFLogxK
U2 - 10.3139/147.110242
DO - 10.3139/147.110242
M3 - Artikel
AN - SCOPUS:84881013301
VL - 50
SP - 491
EP - 500
JO - Praktische Metallographie/Practical Metallography
JF - Praktische Metallographie/Practical Metallography
SN - 0032-678X
IS - 7
ER -