Figure 2. Side view of a computerized simulation, showing the flow chambers’ lower compartment and the flow profile in between the two plates; shearing gap and bottom plate are shown on the left side; rotation speed = 200 rpm; colour code bar (left edge) showing shear force values [Pa] [1 Pa = 10 dyn/cm2]; flow direction presented by arrows
Figure 2. Side view of a computerized simulation
author: P W Kmmerer,D G E Thiem,A Alshihri,G H Wittstock,R Bader,B Al-Nawas, M O Klein | publisher: drg. Andreas Tjandra, Sp. Perio, FISID
![Figure 2. Side view of a computerized simulation, showing the flow chambers’ lower compartment and the flow profile in between the two plates; shearing gap and bottom plate are shown on the left side; rotation speed = 200 rpm; colour code bar (left edge) showing shear force values [Pa] [1 Pa = 10 dyn/cm2]; flow direction presented by arrows](https://palmerah.implantgigi.com/insight/image/1/Figure_2_Side_view_of_a_computerized_simulation.jpeg "Figure 2. Side view of a computerized simulation, showing the flow chambers’ lower compartment and the flow profile in between the two plates; shearing gap and bottom plate are shown on the left side; rotation speed = 200 rpm; colour code bar (left edge) showing shear force values [Pa] [1 Pa = 10 dyn/cm2]; flow direction presented by arrows")
Serial posts:
- Cellular fluid shear stress on implant surfaces
- Methods : Cellular fluid shear stress on implant surfaces (1)
- Methods : Cellular fluid shear stress on implant surfaces (2)
- Methods : Cellular fluid shear stress on implant surfaces (3)
- Results : Cellular fluid shear stress on implant surfaces (1)
- Results : Cellular fluid shear stress on implant surfaces (2)
- Discussion : Cellular fluid shear stress on implant surfaces (1)
- Discussion : Cellular fluid shear stress on implant surfaces (2)
- Discussion : Cellular fluid shear stress on implant surfaces (3)
- Discussion : Cellular fluid shear stress on implant surfaces (4)
- References : Cellular fluid shear stress on implant surfaces
- Figure 1. Three-dimensional illustration and photography
- Figure 2. Side view of a computerized simulation
- Figure 3. Diagram for visualisation of the calculation of shear stress rates
- Figure 4. Randomly orientated osteoblasts without influence of rotation
- Figure 5. Osteoblasts with an orientation tendency after 24 h