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Metric Bolts Maximum Torque

Reference data and engineering information about metric bolts maximum torque for mechanics applications.

metricboltsmaximumtorqueCalculator

Overview

Engineering reference data for Metric Bolts Maximum Torque in mechanics.

Key Formulas

Newton's Second Law

F=maF = ma

Force = mass × acceleration.

Work

W=FdcosθW = Fd\cos\theta

Work = force × displacement × cos(angle).

Kinetic Energy

Ek=12mv2E_k = \frac{1}{2}mv^2

Energy of motion.

Potential Energy

Ep=mghE_p = mgh

Gravitational potential energy.

Variables

SymbolDescriptionUnit
FFForceN
mmMasskg
aaAccelerationm/s²
vvVelocitym/s

Application Conditions

The torque values in the table below are based on the following conditions:

  • Thread type: Coarse threaded bolts
  • Surface condition: Lightly oiled threads
  • Tension: 85% of proof load

These conditions represent typical industrial applications. Torque values should be adjusted when using different lubricants, surface coatings, or target preload percentages.

Maximum Tightening Torques

9 rows
Maximum recommended tightening torque for coarse threaded metric steel bolts (lightly oiled, 85% proof load)
Size(mm)
Grade 8.8(Nm)
Grade 9.8(Nm)
Grade 10.9(Nm)
Grade 12.9(Nm)
M577.81011.7
M611.813.31719.9
M828.832.341.348.3
M1057.364.181.895.7
M1299.8112143167
M16248277354413
M20500690809
M248651395
M3017192774

Source: engineeringtoolbox.com

Property Class Grades

Metric bolt property classes indicate the bolt's mechanical strength:

GradeTensile Strength (MPa)Yield Strength (MPa)Common Applications
8.8800640General purpose structural
9.8900720Higher strength applications
10.91040940High-strength, automotive
12.912201100Maximum strength, critical joints

Note: Always verify torque specifications with the fastener manufacturer for critical applications, as actual values may vary based on thread tolerance, joint stiffness, and other factors.

Interactive Charts

Metric Bolts - Thightening Torques

References