References : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency [1]
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Serial posts:
- Abstract : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency
- Background : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency [1]
- Background : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency [2]
- Background : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency [3]
- Methods : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency [1]
- Methods : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency [2]
- Methods : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency [3]
- Results : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency
- Discussion : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency
- Conclusions : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency
- References : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency [1]
- References : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency [2]
- Author information : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency [1]
- Author information : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency [2]
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- About this article : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency
- Table 1 Published secondary implant stability values for Straumann tissue level RN SLA surfaced implants (Ø = 4.1 mm) : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency
- Table 2 Mean values (± SD) of recorded maximum RF values, calculated indirect ISQ values, and direct recorded ISQ values for Ankylos (A) and Straumann (S) test implants : ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency
- Fig. 1. Concept for study of deflection and stiffness aspects of implant-Smartpeg complex by laser Doppler vibrometry. Intentional partial imbedding of implants allows to detect both the deflection of implant and Smartpeg separately at different vertical levels by changing the position of the laser beam : ISQ calculation evaluation of in vitro laser scann
- Fig. 2. Clamped Osstell probe orientated towards a Smartpeg mounted on a test implant. Note the red laser beam dot on the flat surface of the Smartpeg hexagon part : ISQ calculation evaluation of in vitro laser scann
- Fig. 3. Example of a typical autospectrum pointing to a 1 maximum RF based on 1000 measurements in case of a Straumann test implant : ISQ calculation evaluation of in vitro laser scann
- Fig. 4. Scatterplot depicting indirect calculated and direct measured ISQ values of the tested implants : ISQ calculation evaluation of in vitro laser scann