While Part 1 focuses on single-bolt joints, the 2021 updates better align the logic for use in Part 2, which handles multi-bolted joints in complex circular or rectangular patterns. Why the 2021 Version Matters for Safety
| Step | Description | Key 2021 Update | |------|-------------|------------------| | 1 | Determine tightening factor $\alpha_A$ | Updated scatter bands for modern wrenches | | 2 | Determine required minimum clamp load $F_Kerf$ | New allowance for vibration loosening | | 3 | Calculate working load $F_A$ | Linear/non-linear load introduction factor $n$ refined | | 4 | Determine preload $F_M$ | Accounts now for temperature fluctuations | | 5 | Calculate assembly stress $\sigma_red$ | Inclusion of bending from non-parallel surfaces | | 6 | Verify bolt yielding $\sigma_red \le R_p0.2$ | Safety factor now depends on tightening method | | 7 | Calculate elastic resilience of bolt $\delta_S$ | Uses exact thread profile from ISO 68-1:2020 | | 8 | Calculate elastic resilience of clamped parts $\delta_P$ | New substitute cylinder angles for thin-walled tubes | | 9 | Determine load factor $\Phi$ | Includes eccentric clamping ($\Phi_en$) | | 10 | Determine preload loss $F_Z$ | New temperature relaxation term | | 11 | Minimum and maximum bolt force $F_Smin, F_Smax$ | Now includes statistical overlap with friction | | 12 | Dynamic stress amplitude $\sigma_a$ | Updated fatigue strength diagram (FKM guideline cross-reference) | | 13 | Surface pressure $p$ under head/nut | Limiting pressure for aluminum and plastics added | | 14 | Thread stripping check | New formulas for thin-walled nuts and tapped holes |
, a lead design engineer. In 2021, his team moved to the updated VDI 2230 Part 1
VDI 2230 Part 1 follows a logical progression of "R-steps" to verify a joint:
: Checking if the bolt stress stays below the yield point during tightening and operation. R9: Fatigue Strength
While Part 1 focuses on single-bolt joints, the 2021 updates better align the logic for use in Part 2, which handles multi-bolted joints in complex circular or rectangular patterns. Why the 2021 Version Matters for Safety
| Step | Description | Key 2021 Update | |------|-------------|------------------| | 1 | Determine tightening factor $\alpha_A$ | Updated scatter bands for modern wrenches | | 2 | Determine required minimum clamp load $F_Kerf$ | New allowance for vibration loosening | | 3 | Calculate working load $F_A$ | Linear/non-linear load introduction factor $n$ refined | | 4 | Determine preload $F_M$ | Accounts now for temperature fluctuations | | 5 | Calculate assembly stress $\sigma_red$ | Inclusion of bending from non-parallel surfaces | | 6 | Verify bolt yielding $\sigma_red \le R_p0.2$ | Safety factor now depends on tightening method | | 7 | Calculate elastic resilience of bolt $\delta_S$ | Uses exact thread profile from ISO 68-1:2020 | | 8 | Calculate elastic resilience of clamped parts $\delta_P$ | New substitute cylinder angles for thin-walled tubes | | 9 | Determine load factor $\Phi$ | Includes eccentric clamping ($\Phi_en$) | | 10 | Determine preload loss $F_Z$ | New temperature relaxation term | | 11 | Minimum and maximum bolt force $F_Smin, F_Smax$ | Now includes statistical overlap with friction | | 12 | Dynamic stress amplitude $\sigma_a$ | Updated fatigue strength diagram (FKM guideline cross-reference) | | 13 | Surface pressure $p$ under head/nut | Limiting pressure for aluminum and plastics added | | 14 | Thread stripping check | New formulas for thin-walled nuts and tapped holes | vdi 2230 2021
, a lead design engineer. In 2021, his team moved to the updated VDI 2230 Part 1 While Part 1 focuses on single-bolt joints, the
VDI 2230 Part 1 follows a logical progression of "R-steps" to verify a joint: R9: Fatigue Strength
: Checking if the bolt stress stays below the yield point during tightening and operation. R9: Fatigue Strength
