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Screws · ISO 4026 / ISO 4029 / DIN 913-916

M30 Socket Set Screws Dimensions & Specifications

M30 Socket Set Screws Dimensions & Specifications reference image

M30 Socket Set Screws are manufactured to ISO 4026 / ISO 4029 / DIN 913-916 with a coarse thread pitch of 3.5 mm. This page lists the controlling dimensions for the M30 size — head geometry, width across flats, matching spanner size — together with the clearance hole, tapping drill and tightening torque used at assembly.

M30 Dimensional Row (ISO 4026 / ISO 4029 / DIN 913-916)

SizePitch (mm)Hex socket s (mm)Engagement depth t min (mm)Point diameter dp (mm)End typeReference standard
M303.514.015.022.0Flat pointISO 4026 / DIN 913-916

Spanner & Drive for M30 Socket Set Screws

The hex socket for M30 Socket Set Screws is shown in the spec table — use the matching Allen / hex key (an ISO 2936 hex key set covers the full range). A T-handle Allen key gives the best feel for setting preload by feel; for production work use a torque-controlled driver.

Hole Sizes for M30

Coarse-thread pitch (ISO 724)3.5 mm
Through-hole / clearance (ISO 273 medium)33 mm
Tapping drill, coarse thread26.5 mm

Tightening Torque for M30

Class 8.8 (dry, ~µ 0.125)≈ 1400 Nm
Class 10.9 (dry, ~µ 0.125)≈ 2000 Nm
Class 12.9 (dry, ~µ 0.125)≈ 2400 Nm

Indicative dry-joint values. Lubrication can lower the required torque by 15–25%. Always confirm against the joint design, especially when going up a strength class.

Proof Load & Strength for M30

Tensile stress area As (ISO 898-1)561 mm²
Proof load, class 8.8337 kN
Proof load, class 10.9466 kN
Proof load, class 12.9544 kN
Min. ultimate tensile, class 8.8449 kN

Proof load = stress area × proof stress per ISO 898-1. Design joints so the working preload stays below the proof load of the selected class.

Common Applications for M30 Socket Set Screws

M30 Socket Set Screws are commonly specified for heavy assembly and large machine mounts.

Installation Tips for M30 Socket Set Screws

  • Use a quality Allen key fully seated in the socket — partial engagement is the most common cause of stripped sockets at this size.
  • For countersunk and button-head variants, chamfer the through-hole to seat the head flush without preloading the head/shank fillet.
  • At M30 the stretch in the bolt becomes the controlling factor — for critical joints, use angle-controlled or stretch-controlled tightening instead of pure torque.

Mating Parts for M30

For M30, pair with a M30 hex nut (ISO 4032 / DIN 934) and, where used, a M30 flat washer (ISO 7089 / DIN 125A) under the head and under the nut.

Technical Drawing

Customize the parameters below — every spec field is editable, and the drawing redraws to match the values you choose. Changing the size will snap the other fields to that size's standard values; you can then override any individual value.

Sends the selected values to the quote form below.

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Specification
Business Information

Dimensions & Specifications (ISO 4026 / ISO 4029 / DIN 913-916)

SizePitch (mm)Hex socket s (mm)Engagement depth t min (mm)Point diameter dp (mm)End typeReference standard
M1.60.350.70.70.8Flat pointISO 4026 / DIN 913-916
M1.60.350.70.70.8Cone pointISO 4027 / DIN 913-916
M1.60.350.70.70.8Dog pointISO 4028 / DIN 913-916
M1.60.350.70.70.8Cup pointISO 4029 / DIN 913-916
M20.40.90.91.0Flat pointISO 4026 / DIN 913-916
M20.40.90.91.0Cone pointISO 4027 / DIN 913-916
M20.40.90.91.0Dog pointISO 4028 / DIN 913-916
M20.40.90.91.0Cup pointISO 4029 / DIN 913-916
M2.50.451.31.11.5Flat pointISO 4026 / DIN 913-916
M2.50.451.31.11.5Cone pointISO 4027 / DIN 913-916
M2.50.451.31.11.5Dog pointISO 4028 / DIN 913-916
M2.50.451.31.11.5Cup pointISO 4029 / DIN 913-916
M30.51.51.42.0Flat pointISO 4026 / DIN 913-916
M30.51.51.42.0Cone pointISO 4027 / DIN 913-916
M30.51.51.42.0Dog pointISO 4028 / DIN 913-916
M30.51.51.42.0Cup pointISO 4029 / DIN 913-916
M40.72.02.02.5Flat pointISO 4026 / DIN 913-916
M40.72.02.02.5Cone pointISO 4027 / DIN 913-916
M40.72.02.02.5Dog pointISO 4028 / DIN 913-916
M40.72.02.02.5Cup pointISO 4029 / DIN 913-916
M50.82.52.53.5Flat pointISO 4026 / DIN 913-916
M50.82.52.53.5Cone pointISO 4027 / DIN 913-916
M50.82.52.53.5Dog pointISO 4028 / DIN 913-916
M50.82.52.53.5Cup pointISO 4029 / DIN 913-916
M61.03.03.04.0Flat pointISO 4026 / DIN 913-916
M61.03.03.04.0Cone pointISO 4027 / DIN 913-916
M61.03.03.04.0Dog pointISO 4028 / DIN 913-916
M61.03.03.04.0Cup pointISO 4029 / DIN 913-916
M81.254.04.05.5Flat pointISO 4026 / DIN 913-916
M81.254.04.05.5Cone pointISO 4027 / DIN 913-916
M81.254.04.05.5Dog pointISO 4028 / DIN 913-916
M81.254.04.05.5Cup pointISO 4029 / DIN 913-916
M101.55.05.07.0Flat pointISO 4026 / DIN 913-916
M101.55.05.07.0Cone pointISO 4027 / DIN 913-916
M101.55.05.07.0Dog pointISO 4028 / DIN 913-916
M101.55.05.07.0Cup pointISO 4029 / DIN 913-916
M121.756.06.08.5Flat pointISO 4026 / DIN 913-916
M121.756.06.08.5Cone pointISO 4027 / DIN 913-916
M121.756.06.08.5Dog pointISO 4028 / DIN 913-916
M121.756.06.08.5Cup pointISO 4029 / DIN 913-916
M162.08.08.012.0Flat pointISO 4026 / DIN 913-916
M162.08.08.012.0Cone pointISO 4027 / DIN 913-916
M162.08.08.012.0Dog pointISO 4028 / DIN 913-916
M162.08.08.012.0Cup pointISO 4029 / DIN 913-916
M202.510.010.015.0Flat pointISO 4026 / DIN 913-916
M202.510.010.015.0Cone pointISO 4027 / DIN 913-916
M202.510.010.015.0Dog pointISO 4028 / DIN 913-916
M202.510.010.015.0Cup pointISO 4029 / DIN 913-916
M243.012.012.018.0Flat pointISO 4026 / DIN 913-916
M243.012.012.018.0Cone pointISO 4027 / DIN 913-916
M243.012.012.018.0Dog pointISO 4028 / DIN 913-916
M243.012.012.018.0Cup pointISO 4029 / DIN 913-916
M303.514.015.022.0Flat pointISO 4026 / DIN 913-916
M303.514.015.022.0Cone pointISO 4027 / DIN 913-916
M303.514.015.022.0Dog pointISO 4028 / DIN 913-916
M303.514.015.022.0Cup pointISO 4029 / DIN 913-916
M364.017.019.027.0Flat pointISO 4026 / DIN 913-916
M364.017.019.027.0Cone pointISO 4027 / DIN 913-916
M364.017.019.027.0Dog pointISO 4028 / DIN 913-916
M364.017.019.027.0Cup pointISO 4029 / DIN 913-916
M454.519.024.034.0Flat pointISO 4026 / DIN 913-916
M454.519.024.034.0Cone pointISO 4027 / DIN 913-916
M454.519.024.034.0Dog pointISO 4028 / DIN 913-916
M454.519.024.034.0Cup pointISO 4029 / DIN 913-916
M485.022.028.036.0Flat pointISO 4026 / DIN 913-916
M485.022.028.036.0Cone pointISO 4027 / DIN 913-916
M485.022.028.036.0Dog pointISO 4028 / DIN 913-916
M485.022.028.036.0Cup pointISO 4029 / DIN 913-916

Frequently Asked Questions

What torque do M30 class 8.8 Socket Set Screws take?

A dry M30 class 8.8 joint takes about 1400 Nm (≈ 2000 Nm for 10.9, ≈ 2400 Nm for 12.9). Confirm against your joint design; lubrication reduces these values.

What clearance and tapping drill suit M30?

Use a 33 mm clearance hole (ISO 273 medium) for through-fixing, or a 26.5 mm tapping drill for a coarse M30 thread.

Should M30 Socket Set Screws be tightened by torque or by angle?

For critical structural joints at M30, angle-controlled or stretch-controlled tightening is more repeatable than pure torque — the friction scatter at large diameters can dominate the torque signal.

What grip range is typical for M30 structural bolts?

Grip ranges are highly application-dependent at M30. As a guide, choose a length that gives at least 1× the thread diameter engagement in the nut plus 2–3 thread pitches projecting.

How do I request a quotation?

Use the technical drawing on this page to pick the exact configuration, then submit it with the quote form. We respond within one business day.