R.C. Anderson scite author profile

In this study, a theoretical approach to the ion exchange chromatography of amino adds was followed. Equations were derived which explicitly relate the current "plate" and "rate" theories and which combine the key phenomena and the column operating variables in compact algebraic form. The experimental results from the chromatography of cysteic acid, taurine, aspartic acid, serine, glutamic acid, glycine, alanine, glucosamine, and valine on columns packed with spherical beads of sulfonated polystyrene-divinylbenzene cationic exchange resin were used to test the equations. Resin particle diameter, column diameter, column length, flow rate, temperature, pH, and sodium ion concentration were studied as

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The effect of post‐sintering heat treatments on the fatigue properties of porous coated Ti‐6Al‐4V Alloy

Cook

Thongpreda

Anderson

et al. 1988

J. Biomed. Mater. Res.

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Porous coated Ti-6Al-4V alloy implant systems provide a biocompatible interface between implant and bone, resulting in firm fixation and potential long-term retention via bony ingrowth. In order to achieve an acceptable porous coating structure, the sintering protocol for Ti-6Al-4V alloy systems often requires that the material be heat treated above the beta transus. This transforms the as-received equiaxed microstructure, recommended for surgical implants, to a lamellar alpha-beta distribution, which has been shown to have the worst fatigue properties of the most common structures attainable in Ti-6Al-4V alloy. However, post-sintering heat treatments may be used to improve these properties by producing microstructures more resistant to crack initiation and propagation. This study investigated the influence of microstructural variations on the fatigue properties of porous coated Ti-6Al-4V alloy material. Nonporous coated and porous coated Ti-6Al-4V alloy fatigue specimens were subjected to a standard sintering heat treatment to produce a lamellar microstructure. In addition, two post-sintering heat treatments were used to produce coarse and fine acicular microstructures. Rotating beam (reversed bending) fatigue testing was performed and the endurance limits determined for the noncoated and porous coated microstructures. The values determined were 668 MPa (noncoated as-received equiaxed), 394 MPa (noncoated lamellar), 488 MPa (non-coated coarse acicular), 494 MPa (noncoated fine acicular), 140 MPa (porous coated lamellar), 161 MPa (porous coated coarse acicular), and 162 MPa (porous coated fine acicular). The noncoated coarse and fine acicular specimens displayed an approximate 25% increase over the noncoated lamellar specimens. The porous coated coarse and fine acicular specimens showed an approximate 15% improvement over the porous coated lamellar specimens.

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An Evaluation of Skeletal Attachment to LTI Pyrolytic Carbon, Porous Titanium, and Carbon-coated Porous Titanium Implants

Anderson

Cook

Weinstein

et al. 1984

Clinical Orthopaedics and Related Research

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Evaluation studies in the development of a commercial bacterial inoculant as an additive for grass silage

Anderson¹,

Gracey²,

Kennedy³

et al. 1989

Grass and Forage Science

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Two 2×2 factorial experiments are described in which a bacterial inoculant being developed as a silage additive and containing a strain of Lacto‐bacillus plantarum (Ecosyl, ICI plc) was evaluated at two harvests (18 July and 30 September 1985) of two swards (perennial ryegrass and permanent pasture) in difficult ensiling conditions. On each occasion erbage was ensiled with and without inoculant using two 0·5–t capacity steel tower silos per treatment. The contents of the two replicate silos per treatment were combined for feeding to cross‐bred wethers in digestibility and metabolizable energy (ME) partition studies. Overall, inoculated herbage declined in pH post‐harvest at a faster rate than control herbage (p<0·001) and three out of the four inoculated silages had lower pH, ammonia‐N, acetate and alcohol and higher residual soluble carbohydrate content (p<0·001) than control. Significantly higher digestibility of nutrients (P<0·05) was found in three of the inoculant‐treated silages and these also had significantly higher ME values than control (P<0·001), (10·58 and 8·77 MJ kg tol DM−1 for the treated and untreated silages respectively). The use of inoculant on herbage of only moderate ensiling potential therefore, produced significant improvements in fermentation quality and feeding value over control.

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R.C. Anderson

Modeling the biomechanics of the mandible: A three-dimensional finite element study

Ion exchange chromatography of amino acids.Analysis of diffusion (Mass transfer) mechanisms

The effect of post‐sintering heat treatments on the fatigue properties of porous coated Ti‐6Al‐4V Alloy

An Evaluation of Skeletal Attachment to LTI Pyrolytic Carbon, Porous Titanium, and Carbon-coated Porous Titanium Implants

Evaluation studies in the development of a commercial bacterial inoculant as an additive for grass silage

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