Steven R. Schmid scite author profile

The growing awareness of environmental issues and the requirements to establish solutions diminishing the impact on working environment as well as external environment has initiated ever increasing efforts to develop new, environmentally benign tribological systems for metal forming. The present paper gives an overview of these efforts substituting environmentally hazardous lubricants in cold, warm and hot forging as well as sheet forming and punching/blanking by new, less harmful lubricants and furthermore describes other more generic measures directed towards the same goal such as development of anti-seizure tool materials and coatings and application of structured workpiece and tool surfaces.

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Effects of pre-cooling and pre-heating procedures on cement polymerization and thermal osteonecrosis in cemented hip replacements

Schmid

Mason

2003

Medical Engineering & Physics

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Fundamentals of Machine Elements

Schmid¹,

Hamrock²,

Jacobson³

2014

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Fracture toughness of steel‐fiber‐reinforced bone cement

Kotha

Schmid

et al. 2004

J Biomedical Materials Res

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Fractures in the bone-cement mantle (polymethyl methacrylate) have been linked to the failure of cemented total joint prostheses. The heat generated by the curing bone cement has also been implicated in the necrosis of surrounding bone tissue, leading to loosening of the implants. The addition of reinforcements may improve the fracture properties of bone cement and decrease the peak temperatures during curing. This study investigates the changes in the fracture properties and the temperatures generated in the ASTM F451 tests by the addition of 316L stainless steel fibers to bone cement. The influence of filler volume fraction (5-15% by volume) and aspect ratios (19, 46, 57) on the fracture toughness of the acrylic bone cement was assessed. Increasing the volume fraction of the steel fibers resulted in significant increases in the fracture toughness of the steel-fiber-reinforced composite. Fracture-toughness increases of up to 2.63 times the control values were obtained with the use of steel-fiber reinforcements. No clear trend in the fracture toughness was discerned for increasing aspect ratios of the reinforcements. There is a decrease in the peak temperatures reached during the curing of the steel-fiber-reinforced bone cement, though the decrease is too small to be clinically relevant. Large increases in the fatigue life of acrylic bone cement were also obtained by the addition of steel fibers. These results indicate that the use of steel fibers may enhance the durability of cemented joint prostheses.

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Effect of powder reuse on mechanical properties of Ti-6Al-4V produced through selective laser melting

Alamos

Schiltz

Kozlovsky

et al. 2020

International Journal of Refractory Metals and Hard Materials

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A Mixed Flow Model for Lubrication with Emulsions

Wilson¹,

Sakaguchi²,

Schmid³

1994

Tribology Transactions

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Lubrication of Aluminum Rolling by Oil-in-Water Emulsions

Schmid

Wilson

1995

Tribology Transactions

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7%e dynamic concentration model f w lubricafion by oil-in-wafer emulsions proposed by Wilson et al. ( I ) is applied to sfrip rolling to rla've (I relafively simple equafion f w inlet film thickness. 7'he predictions of the new model are supported by rolling experiments using emulsions as lubricants, where the film thickness is infmed from the surfnce roughness that is generated on the workpiece during rolling.The experimenfs also seem to suggest that fhe efficiency of oil droplet capfure increases with increasing rolling speed.

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Steven R. Schmid

Fundamentals of Fluid Film Lubrication

Environmentally benign tribo-systems for metal forming

Effects of pre-cooling and pre-heating procedures on cement polymerization and thermal osteonecrosis in cemented hip replacements

Fundamentals of Machine Elements

Fracture toughness of steel‐fiber‐reinforced bone cement

Effect of powder reuse on mechanical properties of Ti-6Al-4V produced through selective laser melting

A Mixed Flow Model for Lubrication with Emulsions

Lubrication of Aluminum Rolling by Oil-in-Water Emulsions

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