Table 1 The type of the implant used for experiment
Table 1 The type of the implant used for experiment
author: Yoko Yamaguchi,Makoto Shiota,Motohiro Munakata,Shohei Kasugai, Masahiko Ozeki | publisher: drg. Andreas Tjandra, Sp. Perio, FISID
System
Length
Pitch
Lead
Code
Manufacturer
(mm)
(mm)
(mm)
Standard RN
6, 8, 10
1.2
1.2
ST
Straumann
Bone Level RC
8, 10, 12
0.8
0.8
BL
Straumann
Tapered Effect RN
10
0.8
0.8
TE
Straumann
Brånemark MKIII
10
0.6
1.2
MK3
Nobel Biocare
Brånemark MKIV
10
0.6
1.2
MK4
Nobel Biocare
Serial posts:
-
Effect of implant design on primary stability using torque-time curves in artificial bone
-
Background : Effect of implant design on primary stability
-
Methods : Effect of implant design on primary stability
-
Results : Effect of implant design on primary (1)
-
Results : Effect of implant design on primary (2)
-
Discussion : Effect of implant design on primary (1)
-
Discussion : Effect of implant design on primary (2)
-
Discussion : Effect of implant design on primary (3)
-
Discussion : Effect of implant design on primary (4)
-
Reference : Effect of implant design on primary (4)
-
Table 1 The type of the implant used for experiment
-
Table 2 Insertion torque value and removal torque value
-
Table 3 Torque rise rate of the each area (N · cm/s)
-
Figure 1. Compressed longitudinally to one third for characteristics of implant design
-
Figure 2. Torque-time curves of the ST. a Insertion torque. b Removal torque
-
Figure 3. Torque-time curves of the BL. a Insertion torque. b Removal torque
-
Figure 4. Torque-time curves of the TE. a Insertion torque. b Removal torque
-
Figure 5. Torque-time curves of the MK3 and MK4
| System | Length | Pitch | Lead | Code | Manufacturer |
|---|---|---|---|---|---|
| (mm) | (mm) | (mm) | |||
| Standard RN | 6, 8, 10 | 1.2 | 1.2 | ST | Straumann |
| Bone Level RC | 8, 10, 12 | 0.8 | 0.8 | BL | Straumann |
| Tapered Effect RN | 10 | 0.8 | 0.8 | TE | Straumann |
| Brånemark MKIII | 10 | 0.6 | 1.2 | MK3 | Nobel Biocare |
| Brånemark MKIV | 10 | 0.6 | 1.2 | MK4 | Nobel Biocare |
- Effect of implant design on primary stability using torque-time curves in artificial bone
- Background : Effect of implant design on primary stability
- Methods : Effect of implant design on primary stability
- Results : Effect of implant design on primary (1)
- Results : Effect of implant design on primary (2)
- Discussion : Effect of implant design on primary (1)
- Discussion : Effect of implant design on primary (2)
- Discussion : Effect of implant design on primary (3)
- Discussion : Effect of implant design on primary (4)
- Reference : Effect of implant design on primary (4)
- Table 1 The type of the implant used for experiment
- Table 2 Insertion torque value and removal torque value
- Table 3 Torque rise rate of the each area (N · cm/s)
- Figure 1. Compressed longitudinally to one third for characteristics of implant design
- Figure 2. Torque-time curves of the ST. a Insertion torque. b Removal torque
- Figure 3. Torque-time curves of the BL. a Insertion torque. b Removal torque
- Figure 4. Torque-time curves of the TE. a Insertion torque. b Removal torque
- Figure 5. Torque-time curves of the MK3 and MK4