J. Arends
University of Groningen
10 Papers
90 Citations
J. Arends is an academic researcher from University of Groningen. The author has contributed to research in topics: Enamel paint & Adsorption. The author has an hindex of 8, co-authored 10 publications.
Chat about Author
Papers
A calcium hydroxyapatite precipitated from an aqueous solution: An international multimethod analysis
J. Arends,Jørgen Christoffersen,Margaret R. Christoffersen,Hellmut Eckert,B.O. Fowler,J.C. Heughebaert,George H. Nancollas,James P. Yesinowski,S.J. Zawacki +8 more
TL;DR: In this paper, a pure calcium hydroxyapatite prepared from aqueous solutions at low temperature, was analysed by a large number of techniques in six Institutes, including X-ray diffraction, IR analysis, BET measurement, chemical analysis, differential thermal analysis, magic angle spinning NMR, TEM, size distribution measurements, crystal growth and crystal dissolution measurements.
248
Tooth enamel remineralization
J. Arends,J.M. Ten Cate +1 more
TL;DR: In this paper, a survey is given on tooth reminification from remineralizing solutions and from saliva The substrate, sound tooth enamel, is described from a chemical as well as from an ultrastructural point of view.
134
Direct bonding of orthodontic brackets
TL;DR: Criteria of reliability show that future approaches should aim not only for higher average bonds strengths but also for a smaller standard deviation, and results of different mixing ratios as well as the influence of the amount of catalyst are presented.
116
Composite degradation in vivo
TL;DR: Using the techniques of following (re-measuring) microhardness indentations, surface roughness profiling and SEM before and after the in vivo experiment, one can conclude that all 3 systems showed material losses (surface degradation).
94
Preparation of pure hydroxyapatite single crystals by hydrothermal recrystallization
TL;DR: In this article, the preparation of very pure hydroxyapatite single crystals is described and the results indicate that with this procedure very pure stoichiometric single crystals with a length of up to about 3.5 mm can be produced.
51