H. Stuke scite author profile

H. Stuke

4Publications

0Citation Statements Received

3Citation Statements Given

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Affiliations

Fraunhofer Institute for Manufacturing Technology and Advanced Materials, Applied Materials (Germany)

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Bruchflächenformation und Haftmechanismen von Titan‐Stahl‐Sprengplattierungen

Stuke

Frommeyer

1981

Materialwissenschaft Werkst

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Formation of Fracture Surfaces and Adhesion Mechanisms of Titanium Steel Explosive BondingsInvestigations on adhesion of the model system steel-titanium explosive platings have been carried out under the condition of an uniaxial tensile test. A bond model of explosive plating will be proposed and discusses by means of SEM-analysis of the fracture surfaces. Hence it follows, that in the range of the slow collision velocity, the bond mechanism is identical with that obtained by friction welding processes. At medium collosion velocity a formation of thin hydrodynamic metal films with lubricating effects and slight adhesion in the interfacc region takes place. Extreme large collision velocity rate cause the bond due to fusion welding processes.

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Morphology and erosive wear of Fe–Cr coatings for gun bores deposited by physical vapor deposition

Schlett

Stuke

Weiß

1986

Journal of Vacuum Science & Technology A: Vacuum, Surfaces,

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AES-Untersuchungen an erodierten Eisen-Chrom-PVD-Schichten

Schlett

Stuke

1987

Z. Anal. Chem.

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Resistance of tantalum and columbium coatings to propellant gas erosion

Grabatin

Schlett

Stuke

et al. 1985

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Alloy steel tubes of 70 mm length and 20 mm bore diameter were coated with tantalum or niobium by the wire explosion technique. This process uses the energy of an electric current pulse to melt or vaporize the coating material which is in the form of a wire in the center of the tube, and to deposit it on the bore surface. For testing, these tubes were mounted as outlet nozzles on a vented vessel and subjected to propellant gas pulses of 30 ms duration and 2500 K. The pressure buildup inside the vessel was 1000 bar. After each pulse the erosive wear of the test pieces was determined and after testing the reaction zone of the coatings was sputtered to a depth of 2 μm and analyzed by AES and SIMS during the process. Both coating materials showed excellent adhesion and their erosion resistance proved superior to the unprotected alloy steel. Tantalum, however, exhibited a much better performance than niobium. This was due to the different properties of the gas/metal reaction layers formed. In both cases the bore surface was covered with propellant gas residue of 1 μm thickness, that was built up and carried out with each pulse. Underneath, a layer consisting of Ta2O5 or Nb2O5 was formed. While Ta2O5 was mechanically stable and therefore, built up to a considerable thickness providing good protection, the Nb2O5 layer was formed and removed continuously with every round. This pattern exposed the unprotected Nb to the next pulse and caused a much faster wear rate.

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H. Stuke

Bruchflächenformation und Haftmechanismen von Titan‐Stahl‐Sprengplattierungen

Morphology and erosive wear of Fe–Cr coatings for gun bores deposited by physical vapor deposition

AES-Untersuchungen an erodierten Eisen-Chrom-PVD-Schichten

Resistance of tantalum and columbium coatings to propellant gas erosion

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