Hard Lock Nut | Kouei Japan Trading | Get Quotation

HARDLOCK Normal Type Nut Basic

kvtpart — Thu, 09 Jul 2020 03:25:18 +0000

Product: Made in Japan
Manufacturer: HARDLOCK
Basic Normal Type: M6,M8,M10,M12,M14,M16,M18,M20,M22,M24,M27,M30,M33,M36,M39,M42,M45,M48,M52,M56,M64,M68,M72,M80,M85,M90,M95,M100,M105,M110,M115,M120,M125,M130

The HARDLOCK Nut ensures exceptional self-locking in even the most challenging environments and application

When you need fail safe fastening performance in the most demanding vibration environment, trust HARDLOCK Nuts (HLN) to meet or exceed your expectations.

Play will lead to not only shortened life span but also bolt brakeage which can result in catastrophic accidents.

We hit on the idea of utilizing the wedge principle, widely used in ancient Japanese architecture

Thanks to the design inspired by the principle, HLN completely eliminates the play between the threads and withstands severe vibration longer than any other nuts in the world.

HLN consists of two nuts, the first nut 1 “Convex Nut” (clamping nut) has an eccentric protrusion on the upper surface.

The second nut 2 “Concave Nut” (locking nut) is designed with a concentric recess for locking the two nuts together.

By tightening the Concave Nut onto the Convex Nut, a strong perpendicular load will be applied to the bolt from both sides locking the HLN and making it resistant to vibrations and impacts from any direction.

After installing HLN you will realize a significant decrease in maintenance related work due to its exceptional self locking effect.

This will offer improvement of running cost, though HLN is a high end product, in combination with the advantage that it can be reused multiple times without almost any decrease in performance.

HLN is entirely made from metal only unlike other common self locking nuts and is available in various materials and surface treatment suitable for any environment.

HLN is predominantly used in applications which require safety at higher level in extreme conditions and environments, including but not limited to; Railway, Mining, Civil engineering and Machinery, just to name a few.

HARDLOCK NUT INSTALLATION

Use a tightening tool (spanner, torque wrench etc.) to tighten the Convex Nut to the appropriate torque for the application

The convex nut has the same strength class as a regular hexagon nut and can therefore be tightened to its maximum limit.

2. Install the Concave nut onto the Convex nut manually by hand until it no longer turns (in other words, until prevailing torque is generated). Make sure that there is a gap of more than 1 thread pitch between the nuts.
If the gap is less than 1 pitch, there may be a chance that sufficient locking effect will not be produced so please refrain from using HARDLOCK NUT with the bolt. (The same conditions apply for reuse.)

3. Use a torque wrench to tighten the Concave nut with the recommended torque set by HARDLOCK Industry Co., Ltd
Even after correctly tightening the Concave nut with the torque within the range of recommended tightening torque, there may remain a gap between the nuts due to the tolerance of bolt diameter.
Even in this condition, sufficient locking effect is secured but the Concave nut can be further tightened to come into one sided contact or full contact even with more torque than the recommended torque to better ensure locking effect. If it is difficult to manage the tightening torque of the Concave nut, please use “one sided contact” as a guide for ensuring locking power.

When tightening the Concave nut on to the Convex nut, one side of the nuts will first come into contact, which gives an indication of sufficient locking effect (The Concave nut will slightly incline after the contact between the protrusion and the recess.).

When one sided contact is achieved, the tightening torque rapidly increases.

By applying additional torque , the nuts will come into full contact . This state produces the ultimate locking effect of the HARDLOCK NUT, but further tightening may cause the breakage of bolt threads. It is recommended to stop tightening the concave nut when the nuts come into full contact even though the applying torque is less than the maximum of recommended tightening torque.

Standard materials and coatings

Material	Coating
Class 4/low-carbon steel (JIS SS400 equivalent)	Electrogalvanized (trivalent chromate)
Class 4/low-carbon steel (JIS SS400 equivalent)	Hot-dip galvanized (HDZ35)
Class 8/medium-carbon steel (JIS S45C)	Manganese Phosphate coating
A2/stainless steel (JIS SUS304 or equivalent)	Unplated/plain

Dimensions in milimeters

d	Pitch		Convex nut		Concave nut		Width across flats		e	Overall height	Unit Weight
d	P		m		m1		s		e	ℓ	g
Nominal Size	Coarse	Fine	Basic	Tolerance	Basic	Tolerance	Basic	Tolerance	Approx.	Approx	Approx
M6	1.0	0.75	5	±0.48	5	±0.48	10	0 -0.6	11.5	9.2	3.3
M8	1.25	1.0	6.5	±0.58	6.5	±0.58	13	0 -0.7	15	12	8.6
M10	1.5	1.25	8	±0.58	8	±0.58	17	0 -0.7	19.6	14.4	17.6
M12	1.75	1.25	10	±0.58	10	±0.58	19	0 -0.8	21.9	17.9	27.3
M14	2.0	1.5	11	±0.7	11	±0.7	22	0 -0.8	25.4	19.9	39
M16	2.0	1.5	13	±0.9	12	±1.0	24	0 -0.8	27.7	23.2	52.8
M18	2.5	1.5	15	±0.9	14	±1.0	27	0 -0.8	31.2	26.7	80
M20	2.5	1.5	16	±0.9	15	±1.0	30	0 -0.8	34.6	28.2	105
M22	2.5	1.5	18	±0.9	17	±1.0	32	0 -1.0	37.0	32.3	130
M24	3.0	2.0	19	±0.9	18	±1.0	36	0 -1.0	41.6	33.9	180
M27	3.0	2.0	21	±1.0	21	±1.0	41	0 -1.0	47.3	37.9	246
M30	3.5	2.0	23	±1.0	23	±1.0	46	0 -1.0	53.1	41.9	375
M33	3.5	2.0	25	±1.0	20	0 -1.5	50	0 -1.0	57.7	39.4	411
M36	4.0	3.0	28	±1.0	21	0 -1.5	55	0 -1.2	63.5	41.9	532
M39	4.0	3.0	30	±1.2	23	0 -1.5	60	0 -1.2	69.3	45.7	681
M42	4.5	4.0	33	±1.2	25	0 -1.5	65	0 -1.2	75.0	50.2	892
M45	4.5	4.0	35	±1.2	27	0 -1.5	70	0 -1.2	80.8	54.2	1,115
M48	5.0	4.0	37	±1.2	29	0 -1.5	75	0 -1.2	86.5	58.2	1,393
M52	5.0	4.0	41	±1.2	31	0 -1.5	80	0 -1.2	92.4	63.7	1,708
M56	5.5	4.0	44	±1.2	34	0 -1.5	85	0 -1.4	98.1	68.7	2,047
M64	6.0	4.0	50	±1.5	38	0 -1.5	95	0 -1.4	110	77	2,795
M68			53	±1.5	40	0 -1.7	100	0 -1.4	115	81.1	3,480
M72			57	±1.5	42	0 -1.7	105	0 -1.4	121	85.1	3,910
M76			60	±1.5	46	0 -1.7	110	0 -1.4	127	92.1	4,440
M80			63	±1.5	48	0 -1.7	115	0 -1.4	133	97.1	5,070
M85			67	±1.5	50	0 -1.7	120	0 -1.4	139	101.1	5,630
M90			71	±1.5	54	0 -2.0	130	0 -1.6	150	109.1	7,340
M95			75	±1.5	57	0 -2.0	135	0 -1.6	156	115.1	8,150
M100			79	±1.5	60	0 -2.0	145	0 -1.6	167	121.1	10,140
M105			83	±1.8	63	0 -2.0	150	0 -1.6	173	127.4	11,140
M110			87	±1.8	65	0 -2.0	155	0 -1.6	179	131.4	12,000
M115			91	±1.8	69	0 -2.0	165	0 -1.6	191	139.4	14,780
M120			95	±1.8	72	0 -2.0	170	0 -1.6	196	145.4	16,050
M125			99	±1.8	76	0 -2.0	180	0 -1.6	208	153.4	19,410
M130			103	±1.8	78	0 -2.0	185	0 -1.6	214	157.4	20,650

• External dimensions according to JIS B1181 (2004)/ISO 4032 (width across flats only)
• Threads screw tolerance according to JIS B0209 (2001)/ISO 965 6H

Tightening Torque Table Dimensions

Nominal size	Pitch	Reference tightening torque for convex nut (same as general hex nut) *70% of the bolt yield point					Recommended tightening torque for the concave nut
		Class 4 (SS400 or equivalent)		Class 8 (S45C)	A2/stainless steel (JIS SUS304 or equivalent)		Common to all materials (Min – Max)
		4.8 (320 N/mm²)		8.8 (640 N/mm²)	A2-50	A2-70
		CR3	HDZ35	Manganese Phosphate coating	Plain
M8	1.25	–	–	–	–	–	9–13
M10	1.5	–	–	–	–	–	18–24
M12	1.75	–	–	–	–	–	27–39
M14	2.0	55	125	110	36	75	40–58
M16	2.0	–	–	–	–	–	70–100
M18	2.5	115	270	230	75	165	100–150
M20	2.5	–	–	–	110	230	120–200
M22	2.5	–	–	–	145	315	150–250
M24	3.0	–	–	–	185	400	160–300
M27	3.0	–	–	–	275	585	250–390
M30	3.5	–	–	–	370	790	270–440
M33	3.5	770	1,795	1,540	505	1,080	290–490
M36	4.0	990	2,305	1,975	650	1,390	340–590
M39	4.0	1,280	2,985	2,555	840	1,800	390–640
M42	4.5	1,580	3,690	3,160	1,035	2,225	440–690
M45	4.5	1,980	4,620	3,960	1,300	2,785	490–740
M48	5.0	2,370	5,530	4,740	1,555	3,335	540–780
M52	5.0	3,075	7,175	6,150	2,020	4,325	590–830
M56	5.5	3,820	8,915	7,640	2,505	5,370	640–880
M64	6.0	5,765	13,445	11,525	3,780	8,105	690–930
M68		6,980	16,287	13,960	4,581	9,816	Tighten about 1 turn after tightening manually
M72		8,370	19,531	16,741	5,493	11,771
M76		9,931	23,172	19,862	6,517	13,965
M80		11,677	27,246	23,353	7,663	16,420
M85		14,131	32,973	28,263	9,274	19,872
M90		16,907	39,450	33,814	11,095	23,776
M95		20,023	46,721	40,047	13,140	28,158
M100		23,503	54,841	47,006	15,424	33,051
M105		27,363	63,847	54,726	17,957	38,479
M110		31,623	73,787	63,246	20,753	44,470
M115		36,302	84,705	72,605	23,823	51,050
M120		41,425	96,658	82,850	27,185	57,254
M125		47,006	109,682	94,013	30,848	66,103
M130		53,067	123,823	106,134	34,825	74,625

Stop tightening when full contact is achieved between the convex and concave nuts, even before reaching the highest recommended torque.

The reference torque for the convex nut is based on a 0.15 torque coefficient, and for the HDZ35 version, it’s calculated using a 0.35 coefficient. • Refer to the bolt’s strength classification for the A2/stainless steel convex nut’s tightening torque

. Since the convex nut’s proof load is standard, it doesn’t have a unique torque value..

The concave nut can exceed the recommended torque if needed due to varying torque coefficients influenced by surface roughness.

Tighten HDZ concave nuts 50% more than the standard due to their higher torque coefficient.

Kouei is Distributor/Agent of Hard Lock Nut
Other items of Hard Lock Nut
Request the quotation for Hard Lock Nut

The post HARDLOCK Normal Type Nut Basic first appeared on Kouei Japan Trading | Get Quotation.

HARDLOCK Rim Type Nut Standard

kvtpart — Thu, 09 Jul 2020 03:07:07 +0000

Product: Made in Japan
Manufacturer: HARDLOCK
Basic Rim Type M5, M6, M8, M10, M12, M16, M20, M22, M24, M27, M30

HARDLOCK Nut provides unparalleled self locking performance even in the toughest environments and applications

When you need fail safe fastening performance in the most demanding vibration environment, trust HARDLOCK Nuts (HLN) to meet or exceed your expectations.

Play will lead to not only shortened life span but also bolt brakeage which can result in catastrophic accidents.

We hit on the idea of utilizing the wedge principle, widely used in ancient Japanese architecture.

Thanks to the design inspired by the principle, HLN completely eliminates the play between the threads and withstands severe vibration longer than any other nuts in the world.
HLN consists of two nuts, the first nut 1 “Convex Nut” (clamping nut) has an eccentric protrusion on the upper surface.

The second nut 2 “Concave Nut” (locking nut) is designed with a concentric recess for locking the two nuts together.

After installing HLN you will realize a significant decrease in maintenance related work due to its exceptional self locking effect.

This will offer improvement of running cost, though HLN is a high end product, in combination with the advantage that it can be reused multiple times without almost any decrease in performance.

HLN differs from common self-locking nuts by being entirely metal-made and is available in a variety of materials and surface treatments to adapt to any environment.

HLN finds its primary use in high-safety applications within extreme conditions and environments, including sectors like railways, mining, civil engineering, and machinery, to name a few.

HARDLOCK NUT INSTALLATION

2. Use a tightening tool (spanner, torque wrench etc.) to tighten the Convex Nut to the appropriate torque for the applicationThe convex nut has the same strength class as a regular hexagon nut and can therefore be tightened to its maximum limit.

Manually install the Concave nut onto the Convex nut by hand until it stops turning, indicating the generation of prevailing torque, and ensure that a gap of more than 1 thread pitch exists between the nuts.

If the gap is less than 1 pitch, there may be a chance that sufficient locking effect will not be produced so please refrain from using HARDLOCK NUT with the bolt. (The same conditions apply for reuse.)

Use a torque wrench to tighten the Concave nut with the recommended torque set by HARDLOCK Industry Co., Ltd

Even after correctly tightening the Concave nut with the torque within the range of recommended tightening torque, there may remain a gap between the nuts due to the tolerance of bolt diameter.

Even under these conditions, the locking effect remains sufficient. However, you can further tighten the Concave nut to achieve one-sided or full contact, using more torque than recommended for enhanced locking. If managing the Concave nut’s tightening torque is challenging, use “one-sided contact” as a guideline to ensure locking power

When you achieve one-sided contact, the tightening torque increases rapidly.

You should stop tightening the concave nut once it comes into full contact with the convex nut, even if the applied torque is less than the maximum recommended tightening torque.

Standard materials and coatings

Material	Coating
Class 4/low-carbon steel (JIS SS400 equivalent)	Electrogalvanized (trivalent chromate)
Class 4/low-carbon steel (JIS SS400 equivalent)	Hot-dip galvanized (HDZ35)
Class 8/medium-carbon steel (JIS S45C)	Manganese Phosphate coating
Class 10/chromium molybdenum steel (JIS SCM435)	Manganese Phosphate coating
A2/stainless steel (JIS SUS304 or equivalent)	Unplated/plain

Dimension table (M16–M130)

d	Pitch	Convex nut		Concave nut		Width across flats		ｅ	Overall height	Rim dia.	Unit weight
d	P	m		ｍ1		s		ｅ	ℓ	Ｄ	g
Normal size	Coarse	Basic	Tolerance	Basic	Tolerance	Basic	Tolerance	Approx.	Approx.	Approx.	Approx.
M5	0.8	4	+0.1 -0.15	4	+0.5 -0.2	8	0 -0.2	9.2	7.2	9.2	1.9
M6	1.0	5	±0.3	5	0 -0.3	10	0 -0.6	11.5	8.5	11.5	4
M8	1.25	6.5	0 -0.58	6.5	0 -0.58	13	0 -0.7	15	10.8	15.0	8.9
M10	1.5	8	0 -0.58	8	0 -0.58	17	0 -0.7	19.6	13.2	19.6	18
M12	1.75	10	0 -0.58	9.3	0 -0.58	19	0 -0.8	21.9	16.0	21.9	26
M16	2.0	13	±0.9	11	0 -0.7	24	0 -0.8	27.7	21.2	27.7	46
M20	2.5	16	±0.9	14.5	0 -0.7	30	0 -0.8	34.6	26.7	34.6	93
M22	2.5	18	±0.9	15.6	0 -1.2	32	0 -1.0	37	29.9	37.0	115
M24	3.0	19	±0.9	17.6	0 -1.2	36	0 -1.0	41.6	32.4	41.6	183
M27	3.0	21	±1.0	17.6	0 -1.2	41	0 -1.0	47.3	33.5	47.3	243
M30	3.5	23	±1.0	18.6	0 -1.2	46	0 -1.0	53.1	36.5	53.1	312

The external dimensions conform to JIS B1181 (2004)/ISO 4032 standards, specifically in width across flats. The thread screw tolerance adheres to JIS B0209 (2001)/ISO 965 6H specifications. The overall height was modified in January 2014 to approximate the maximum height, considering significant tolerance.

Tightening torque table (M16–M130)

Nominal size	Reference tightening torque for the convex nut (same as general hex nut) *70% of the bolt yield point						Recommended tightening torque for the concave nut
	Class 4 (SS400 or equivalent)		Class 8 (S45C)	Class 10 (SCM435)	A2/stainless steel (JIS SUS304 or equivalent)		Common to all (min.–max.)
	4.8 (320 N/mm²)		8.8 (640 N/mm²)	10.9 (900 N/mm²)	A2-50	A2-70
	Trivalent chromate	HDZ35	Manganese Phosphate coating		Plain
M5	2.5	–	–	–	1.6	3.4	2–3
M6	4.1	–	–	–	2.7	5.7	4–5
M8	9.8	23	19.7	27.7	6.5	14	9–13
M10	20	45	39	55	13	27	18–24
M12	34	79	68	96	22	48	27–39
M16	84	197	170	237	55	120	70–100
M20	165	384	330	463	–	–	120–200
M22	225	523	450	630	–	–	150–250
M24	285	664	570	801	–	–	160–300
M27	415	972	835	1,171	–	–	250–390
M30	565	1,319	1,130	1,590	–	–	270–440

Stop tightening once the convex and concave nuts reach full contact, even if it’s before the highest recommended torque

The tightening torque for the convex nut with HDZ35 is calculated on the basis of a torque coefficient of 0.35.

For the tightening torque of the A2/stainless steel convex nut, refer to the strength classification of the bolt used.

Because the proof load of the convex nut is the same as a general single nut, there is no unique torque value.

The concave nut can be tightened until contact with the convex nut even if the tightening torque exceeds the recommended maximum value because the torque coefficient varies depending on the surface roughness.
For HDZ concave nuts, tighten 50% more than the recommended torque value due to the high torque coefficient.

Kouei is Distributor/Agent of Hard Lock Nut
Other items of Hard Lock Nut
Request the quotation for Hard Lock Nut

The post HARDLOCK Rim Type Nut Standard first appeared on Kouei Japan Trading | Get Quotation.

HARDLOCK Thin Type Nut Basic

kvtpart — Thu, 09 Jul 2020 00:37:59 +0000

Product: Made in Japan
Manufacturer: HARDLOCK
Basic Thin Type M16,M18,M20,M22,M24,M27,M30,M33,M36,M39,M42,M45,M48,M52,M56,M64,M68,M72,M76,M80,M85,M90,M95,M100,M105,M110,M115,M120,M125,M130

HARDLOCK Nut provides unparalleled self locking performance even in the toughest environments and applications

When you need fail safe fastening performance in the most demanding vibration environment, trust HARDLOCK Nuts (HLN) to meet or exceed your expectations.

The primary reason for loosening in bolted joints is a drop in the initial clamp load occurring due to external forces such as impact and vibration, to battle this you need to eliminate the play (gap) between the threads of the bolt and nut.
Play will lead to not only shortened life span but also bolt brakeage which can result in catastrophic accidents.

We hit on the idea of utilizing the wedge principle, widely used in ancient Japanese architecture.

Thanks to the design inspired by the principle, HLN completely eliminates the play between the threads and
withstands severe vibration longer than any other nuts in the world.
HLN consists of two nuts, the first nut 1 “Convex Nut” (clamping nut) has an eccentric protrusion on the upper surface.

The second nut 2 “Concave Nut” (locking nut) is designed with a concentric recess for
locking the two nuts together. By tightening the Concave Nut onto the Convex Nut, a strong
perpendicular load will be applied to the bolt from both sides locking the HLN and making it resistant to
vibrations and impacts from any direction.

After installing HLN you will realize a significant decrease in maintenance related work due to its exceptional self locking effect. This will offer improvement of running cost, though HLN is a high end product, in combination with the advantage that it can be reused multiple times without almost any decrease in performance. HLN is entirely made from metal only unlike other common self locking nuts and is available in various materials and surface treatment suitable for any environment. HLN is predominantly used in applications which require safety at higher level in extreme conditions and environments, including but not limited to; Railway, Mining, Civil engineering and Machinery, just to name a few.

HARDLOCK NUT INSTALLATION

1. 1. Use a tightening tool (spanner, torque wrench etc.) to tighten
    the Convex Nut to the appropriate torque for the applicationThe convex nut has the same strength class as a regular
    hexagon nut and can therefore be tightened to its maximum
    limit.
  2. Install the Concave nut onto the Convex nut manually by
    hand until it no longer turns (in other words, until prevailing
    torque is generated). Make sure that there is a gap of more
    than 1 thread pitch between the nuts.
    If the gap is less than 1 pitch, there may be a chance that
    sufficient locking effect will not be produced so please
    refrain from using HARDLOCK NUT with the bolt.
    (The same conditions apply for reuse.)
  3. Use a torque wrench to tighten the Concave nut with the
    recommended torque set by HARDLOCK Industry Co., Ltd
    Even after correctly tightening the Concave nut with the
    torque within the range of recommended tightening
    torque, there may remain a gap between the nuts due to the tolerance of bolt diameter.
    Even in this condition, sufficient locking effect is secured but the Concave nut can be further tightened to come into one sided contact or full contact even with more torque than the recommended torque to better ensure locking effect. If it is difficult to manage the tightening torque of the Concave nut, please use “one sided contact” as a guide for ensuring locking power. When tightening the Concave nut on to the Convex nut, one side of the nuts will first come into contact, which gives an indication of sufficient locking effect (The Concave nut will slightly incline after the contact between the protrusion and the recess.). When one sided contact is achieved, the tightening torque rapidly increases. By applying additional torque , the nuts will come into full contact . This state produces the ultimate locking effect of the HARDLOCK NUT, but further tightening may cause the breakage of bolt threads. It is recommended to stop tightening the concave nut when the nuts come into full contact even though the applying torque is less than the maximum of recommended tightening torque.

Standard materials and coatings

Material	Coating
Class 4/low-carbon steel (JIS SS400 equivalent)	Electrogalvanized (trivalent chromate)
Class 4/low-carbon steel (JIS SS400 equivalent)	Hot-dip galvanized (HDZ35)
Class 8/medium-carbon steel (JIS S45C)	Manganese Phosphate coating
A2/stainless steel (JIS SUS304 or equivalent)	Unplated/plain

Dimension table (M16–M130)

d	Pitch		Convex nut		Convex nut		Width across flats		e	Overall height	Unit weight
d	P		m		m1		s		e	ℓ	g
Nominal size	Coarse	Fine	Basic	Tolerance	Basic	Tolerance	Basic	Tolerance	Approx	Approx	Approx
M16	2.0	1.5	10	0 -0.8	10	0 -0.8	24	0 -0.8	27.7	16.3	36
M18	2.5	1.5	11	0 -0.9	11	0 -0.9	27	0 -0.8	31.2	17.8	52
M20	2.5	1.5	12	0 -0.9	12	0 -0.9	30	0 -0.8	34.6	19.3	67
M22	2.5	1.5	13	0 -0.9	13	0 -0.9	32	0 -1.0	37.0	21.4	81
M24	3.0	2.0	14	0 -0.9	14	0 -0.9	36	0 -1.0	41.6	22.9	116
M27	3.0	2.0	16	0 -1.4	16	0 -1.4	41	0 -1.0	47.3	25.9	176
M30	3.5	2.0	18	0 -1.4	18	0 -1.4	46	0 -1.0	53.1	29.9	260
M33	3.5	2.0	20	0 -1.5	20	0 -1.5	50	0 -1.0	57.7	33.4	344
M36	4.0	3.0	21	0 -1.5	21	0 -1.5	55	0 -1.2	63.5	33.9	424
M39	4.0	3.0	23	0 -1.5	23	0 -1.5	60	0 -1.2	69.3	37.5	556
M42	4.5	4.0	25	0 -1.5	25	0 -1.5	65	0 -1.2	75.0	41.0	730
M45	4.5	4.0	27	0 -1.5	27	0 -1.5	70	0 -1.2	80.8	45.0	923
M48	5.0	4.0	29	0 -1.5	29	0 -1.5	75	0 -1.2	86.5	49.0	1,169
M52	5.0	4.0	31	0 -1.5	31	0 -1.5	80	0 -1.2	92.4	52.5	1,428
M56	5.5	4.0	34	0 -1.5	34	0 -1.5	85	0 -1.4	98.1	57.5	1,687
M64	6.0	4.0	38	0 -1.5	38	0 -1.5	95	0 -1.4	110	63.5	2,304
M68			40	0 -1.7	40	0 -1.7	100	0 -1.4	115	66.6	3,030
M72			42	0 -1.7	42	0 -1.7	105	0 -1.4	121	68.6	3,060
M76			46	0 -1.7	46	0 -1.7	110	0 -1.4	127	76.6	3,740
M80			48	0 -1.7	48	0 -1.7	115	0 -1.4	133	80.6	4,250
M85			50	0 -1.7	50	0 -1.7	120	0 -1.4	139	82.6	4,610
M90			54	0 -2.0	54	0 -2.0	130	0 -1.6	150	90.6	5,900
M95			57	0 -2.0	57	0 -2.0	135	0 -1.6	156	95.6	6,770
M100			60	0 -2.0	60	0 -2.0	145	0 -1.6	167	100.6	8,430
M105			63	0 -2.0	63	0 -2.0	150	0 -1.6	173	105.6	9,250
M110			65	0 -2.0	65	0 -2.0	155	0 -1.6	179	107.6	11,750
M115			69	0 -2.0	69	0 -2.0	165	0 -1.6	191	115.6	12,280
M120			72	0 -2.0	72	0 -2.0	170	0 -1.6	196	120.6	13,330
M125			76	0 -2.0	76	0 -2.0	180	0 -1.6	208	128.6	16,290
M130			78	0 -2.0	78	0 -2.0	185	0 -1.6	214	130.6	17,150

• Nut shape: JIS B1181 (2004)/ISO 4032
• Screw precision: JIS B0209 (2001)/ISO 261 – 6H

Tightening torque table (M16–M130)

Nominal size	Pitch	Reference tightening torque for convex nut *70% of the bolt yield point					Recommended tightening torque for convex nut
		Class 4 (SS400 or equivalent)		Class 8 (S45C)	A2/stainless steel (JIS SUS304 or equivalent)		Common to all materials (min.–max.)
		4.8 (320 N/mm²)		8.8 (640 N/mm²)	A2-50	A2-70
		Trivalent chromate	HDZ35	Manganese Phosphate coating	Plain
M16	2.0	84	197	170	55	120	70–100
M18	2.5	115	270	230	76	165	100–150
M20	2.5	165	384	330	110	230	120–200
M22	2.5	225	523	450	145	315	150–250
M24	3.0	285	664	570	185	400	160–300
M27	3.0	415	972	835	275	585	250–390
M30	3.5	565	1,319	1,130	370	790	270–440
M33	3.5	770	1,795	1,540	505	1,080	290–490
M36	4.0	990	2,305	1,975	650	1,390	340–590
M39	4.0	1,280	2,985	2,555	840	1,800	390–640
M42	4.5	1,580	3,690	3,160	1,035	2,225	440–690
M45	4.5	1,980	4,620	3,960	1,300	2,785	490–740
M48	5.0	2,370	5,530	4,740	1,555	3,335	540–780
M52	5.0	3,075	7,175	6,150	2,020	4,325	590–830
M56	5.5	3,820	8,915	7,640	2,505	5,370	640–880
M64	6.0	5,765	13,445	11,525	3,780	8,105	690–930
M68		6,980	16,287	13,960	4,581	9,816	Tighten about 1 turn after tightening manually
M72		8,370	19,531	16,741	5,493	11,771
M76		9,931	23,172	19,862	6,517	13,965
M80		11,677	27,246	23,353	7,663	16,420
M85		14,131	32,973	28,263	9,274	19,872
M90		16,907	39,450	33,814	11,095	23,776
M95		20,023	46,721	40,047	13,140	28,158
M100		23,503	54,841	47,006	15,424	33,051
M105		27,363	63,847	54,726	17,957	38,479
M110		31,623	73,787	63,246	20,753	44,470
M115		36,302	84,705	72,605	23,823	51,050
M120		41,425	96,658	82,850	27,185	58,254
M125		47,006	109,682	94,013	30,848	66,103
M130		53,067	123,823	106,134	34,825	74,625

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Welding Stud

kvt part2 — Thu, 09 Apr 2020 07:22:23 +0000

Made in Korea

JIS B 1198
*Diameter: M12–M24 (1/2″–1″)
*Length: 35–240L
**Only produced and supplied in Korea.
***
JIS certification can be obtained within 6 months if needed.

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Tension Control Bolts

kvt part2 — Thu, 09 Apr 2020 07:16:26 +0000

Made in Korea

Standard: JSS II-09
Grade: S10T
Surface: Plain, Zinc, Geomet
Size Dia: M12–M24 (1/2″–1″)
Length: 35–240L (1/2″–9 1/2″)

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Hexagon Socket Button Head Screw

kvt part2 — Thu, 09 Apr 2020 07:12:47 +0000

Made in Vietnam

ISO 7380-2
Grade : 8.8, 10.9
Surface : Plain, Zinc
Size Dia : M6–M16
Length : 16–180L

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Hexagon Socket Button Head Screw

kvt part2 — Thu, 09 Apr 2020 07:10:45 +0000

Made in Vietnam

ISO 7380-1
Grade : 8.8, 10.9
Surface : Plain, Zinc
Size Dia : M6–M16
Length : 16–180L
Length : 16–240L (5/8″–9 1/2″)

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Round Head Square Neck Bolts

kvt part2 — Thu, 09 Apr 2020 07:07:39 +0000

Made in Vietnam

SAE, ASME B18.5
Grade : A307, Gr.5, Gr.8
Surface : Plain, Zinc
Size Dia : M6–M20 (1/4″–3/4″)
Length : 25–152L (1″–6″)

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Hex Socket Countersunk Flat Head Cap

kvt part2 — Thu, 09 Apr 2020 07:03:29 +0000

Made in Vietnam

Screw ISO 10642 DIN 7991
Grade : 8.8, 10.9
Surface : Plain, Zinc
Size Dia : M6–M20
Length : 16–200L

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Socket Bolts / Thin Head Cap Screw

kvt part2 — Thu, 09 Apr 2020 06:59:45 +0000

Made in Vietnam

DIN 912, 7984, ASTM
Grade : 8.8, 10.9, 12.9, A574
Surface : Plain, Zinc, HDG
Size Dia : M6–M24 (1/4″–1″)
Length : 16–240L

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Hexagon Flange Bolts

kvt part2 — Thu, 09 Apr 2020 06:56:25 +0000

Made in Vietnam

DIN 6921, ASTM, IFI 1111
Grade : 8.8, 10.9, 12.9, Gr.5, Gr.8
Surface : Plain, Zinc
Size Dia : M6–M20 (1/4″–3/4″)
Length : 16–240L (5/8″–9 1/2″)

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Hex Bolt Screw

kvt part2 — Thu, 09 Apr 2020 06:52:41 +0000

Made in Vietnam

DIN 933, DIN961, ISO 4017, ASTM
Grade : 8.8, 10.9, 12.9, Gr.5, Gr.8
Surface : Plain, Zinc, HDG
Size Dia : M6–M24 (1/4″–1″)
Length : 16–240L (5/8″–9 1/2″)

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Hex Bolt Screw

kvt part2 — Thu, 09 Apr 2020 06:41:18 +0000

Made in Vietnam

DIN 931, 960, ISO 4014, ASTM
Grade : 8.8, 10.9, 12.9, Gr.5, Gr.8
Surface : Plain, Zinc, HDG
Size Dia : M6–M24 (1/4″–1″)
Length : 16–240L (5/8″–9 1/2″)

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HardLock-Nut HLN-R/HLN-B

Admin — Sun, 19 Feb 2017 14:17:14 +0000

Manufacturer: HARDLOCK
Product made in Japan
Model: HLN-R/HLN-B : M6,M8,M10,M12,M14,M16,M18,M20,M22,M24,M27,M30,M33,M36,M39,M42,M45,M48,M52,M56,M64

HARDLOCK Nut provides self locking performance even in the environments

For fail-safe fastening in high-vibration environments, rely on HARDLOCK Nuts (HLN) to surpass your expectations.

Bolted joint loosening typically results from a decrease in initial clamp load due to external factors like impact and vibration. To address this issue, it’s essential to eliminate any play or gap between the bolt and nut threads.

Play will lead to not only shortened life span but also bolt brakeage which can result in catastrophic accidents.

We hit on the idea of utilizing the wedge principle, widely used in ancient Japanese architecture.

Thanks to its principle-inspired design, HLN eliminates thread play completely and outlasts any other nuts in the world when it comes to withstanding severe vibrations.

HLN comprises two nuts: the first, “Convex Nut” or clamping nut, features an eccentric protrusion on its upper surface. When you tighten the Concave Nut onto the Convex Nut, it exerts a robust perpendicular load on the bolt from both sides, effectively securing the HLN and providing resistance to vibrations and impacts from any direction.

After installing HLN you will realize a significant decrease in maintenance related work due to its exceptional self locking effect.

This will offer improvement of running cost, though HLN is a high end product, in combination with the advantage that it can be reused multiple times without almost any decrease in performance.

HLN consists solely of metal, unlike typical self-locking nuts, and comes in a variety of materials and surface treatments suitable for any environment.

HARDLOCK NUT INSTALLATION

1. 1. Use a tightening tool (spanner, torque wrench etc.) to tighten
    the Convex Nut to the appropriate torque for the application The convex nut has the same strength class as a regular
    hexagon nut and can therefore be tightened to its maximum
    limit.
  2. Install the Concave nut onto the Convex nut manually by hand until it no longer turns (in other words, until prevailing torque is generated).
  3. Make sure that there is a gap of more than 1 thread pitch between the nuts.
    If the gap is less than 1 pitch, there may be a chance that sufficient locking effect will not be produced so please refrain from using HARDLOCK NUT with the bolt.
    (The same conditions apply for reuse.)
  4. Use a torque wrench to tighten the Concave nut with the recommended torque set by HARDLOCK Industry Co., Ltd
    Even after correctly tightening the Concave nut with the torque within the range of recommended tightening torque, there may remain a gap between the nuts due to the tolerance of bolt diameter.
    Even in this condition, sufficient locking effect is secured but the Concave nut can be further tightened to come into one sided contact or full contact even with more torque than the recommended torque to better ensure locking effec.
  5. If it is difficult to manage the tightening torque of the Concave nut, please use “one sided contact” as a guide for ensuring locking power.
  6. When tightening the Concave nut on to the Convex nut, one side of the nuts will first come into contact, which gives an indication of sufficient locking effect (The Concave nut will slightly incline after the contact between the protrusion and the recess.).
  7. When one sided contact is achieved, the tightening torque rapidly increases. By applying additional torque , the nuts will come into full contact .
  8. This state produces the ultimate locking effect of the HARDLOCK NUT, but further tightening may cause the breakage of bolt threads. It is recommended to stop tightening the concave nut when the nuts come into full contact even though the applying torque is less than the maximum of recommended tightening torque.

HARDLOCK NUT Standard Rim Type (HLN-R)

Nominal Size	Pitch	Nominal Size	Pitch
d	P	d	P
M5	0.8	M16	2
M6	1	M20	2.5
M8	1.25	M22	2.5
M10	1.5	M24	3
M12	1.75	M27	3
		M30	3.5

Description	HARDLOCK Nut composed of two nuts, concave and convex nut is designed to withstand severe vibration and compression loading forces. HLN-R has a rim on the bottom surface of the Concave Nut for increased workability. Only metric course thread is available.
Standard	External dimensions: JIS B1181(2014) Annex JA (Width across flats only) Thread tolerances: 6H JIS B0209(2001)/ISO 965
Material	Class 4 JIS SS400 equivalent (Law Carbon Steel) Class 8 JIS S45C (Medium Carbon Steel) – Heat treated Class 10 JIS SCM435 (Chromium Molybdenum Steel) – Heat treated A2-70 JIS SUS304 equivalent (Stainless Steel) * HLN-R Class8 and Class10 are only available for M8 or bigger. * HLN-R A2 is only available up to M16.
Surface Treatment	Class 4 with Trivalent Chromate or Hot-dip Galvanizing (HDZ 35) (for M8 or bigger) Class 8 with Manganese Phosphate coating or Zinc Trivalent Chromate Class 10 with Manganese Phosphate coating A2 in plain/uncoated *Other surface treatments are available on made-to-order basis.

HARDLOCK NUT Basic Type (HLN-B)

Nominal Size	Pitch		Nominal Size	Pitch
Nominal Size	P		Nominal Size	P
d	Coarse	Fine	d	Coarse	Fine
M6	1.0	0.75	M30	3.5	2.0
M8	1.25	1.0	M33	3.5	2.0
M10	1.5	1.25	M36	4.0	3.0
M12	1.75	1.25	M39	4.0	3.0
M14	2.0	1.5	M42	4.5	4.0
M16	2.0	1.5	M45	4.5	4.0
M18	2.5	1.5	M48	5.0	4.0
M20	2.5	1.5	M52	5.0	4.0
M22	2.5	1.5	M56	5.5	4.0
M24	3.0	2.0	M64	6.0	4.0
M27	3.0	2.0

Description	HLN-B complements HLN-R by providing fine thread, thin type, diameters of bigger than M30 for C4/C8/C10 & bigger than M16 for A2 and inch thread.
Standard	External dimensions: JIS B1181(2014) Annex JA (Width across flats only) Thread tolerances: JIS B0209(2001)/ISO 965 6H
Material (Standard stock)	Class 4 JIS SS400 equivalent (Law Carbon Steel) Class 8 JIS S45C (Medium Carbon Steel) – Heat treated Class 10 JIS SCM435 (Chromium Molybdenum Steel) – Heat treated A2-50 JIS SUS304 equivalent (Stainless Steel)
Surface Treatment (Standard stock)	Class 4 with Trivalent Chromate or Hot-dip Galvanizing (HDZ 35) Class 8 with Manganese Phosphate coating or Zinc Trivalent Chromate Class 10 with Manganese Phosphate coating A2 in plain/uncoated *Other surface treatments are available on made-to-order basis.

Kouei is Distributor/Agent of Hard Lock Nut
Other items of Hard Lock Nut
Request the quotation for Hard Lock Nut

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