BECA 010

O'Rings

BECA 010

Description

The BECA 010 profile is an O'Ring, a circular ring with a round cross-section, made from rubber.

Advantages

Compact design
Easy assembly
Economic solution
Symmetry that reduces the risks of an assembly error

Technical data

Temperature	-60°C / +200°C
Pressure	*
Speed	*
Medias	The majority of liquid, gaseous or chemical product fluids depending on the type of material selected. Refer to our fluids-materials compatibility guide.

Applications

All types of applications

Materials

ACM 70 Shore A
AEM 70 Shore A
EPDM 70 Shore A
FKM 70 Shore A
HNBR 70 Shore A
NBR 70 Shore A
VMQ 70 Shore A

Download

Product catalog - O'Rings and Back-up rings

Inside diameter Ød1	Cross-section Ød2	N° d'identification selon normes
AS 568A	AS 568A BS 1806	ISO 3601 G	DIN 3771	NFT 47-501 G	Bague R	JIS B2401	SMS 1586	BS 4518

Dimensions

Materials

Design recommendations

Quality criteria

Assembly recommendations

Dimensions

Materials

NBR (Nitrile Butadiene Rubber)

Nitrile rubber (NBR) is the general term for acrylonitrile-butadiene copolymer. The ACN content can vary between 18% and 50%. While the acrylonitrile content is important, the resistance to oil and fuel is more so. Conversely, the elasticity and compression set are not as good. The NBR has good mechanical properties and good wear resistance. However, its resistance to atmospheric agents and the ozone is relatively low.

Chemical resistance	Aliphatic hydrocarbons (propane, butane, petroleum, diesel fuel) Mineral oils and greases Fire-resistant fluids (HFA, HFB and HFC) Diluted acids, alkaline and saline solutions for low temperatures Water (up to +100°C max)
Compatibility issue	Fuels with a high aromatic content Aromatic hydrocarbons (benzene) Chlorinated hydrocarbons (trichlorethylene) Polar solvents (ketone, acetone, acetic acid, ethylene-ester) Strong acids Glycol-based brake fluids Atmospheric and ozone agents
Temperature range	-30°C / +100°C (short-term peak at +120°C) -40°C / +100°C with special NBRs

FKM (fluorinated rubber)

Depending on their structure and fluorine content, fluoroelastomers can vary in terms of chemical resistance and resistance to cold. This FKM-based rubber is very often used for high-temperature hydraulic and pneumatic systems, industrial valves, injection/fuel systems, motor seals and high-vacuum systems.

Chemical resistance	Mineral oils and greases, ASTM n°1, IRM 902 and IRM 903 oils. Fire-resistant liquids (HFD) Silicone oils and greases Mineral and vegetable oils and greases Aliphatic hydrocarbons (propane, butane, petroleum) Aromatic hydrocarbons (benzene, toluene) Chlorinated hydrocarbons (trichlorethylene) Petrol (including high alcohol content) Atmospheric and ozone agents
Compatibility issue	Glycol-based brake fluids Ammoniac gas Organic acids with a low molecular weight (formic and acetic acids)
Temperature range	-20°C / +200°C (short-term peak at +230°C) -40°C / +200°C with special FKMs

EPDM (Ethylene Propylene Diene Monomer rubber)

As an Ethylene Propylene Diene Monomer copolymer, EPDM is commonly used for hot water taps, cooling systems, brake systems, dishwashers and washing machines.

Chemical resistance	Hot water and steam up to +150°C Glycol-based brake fluids (Dot 3 & 4) and silicone-based brake fluids (Dot 5) Organic and inorganic acids Cleaning agents, sodium and potassium alkalis Hydraulic fluids (HFD-R) Silicone oils and greases Polar solvents (alcohols, ketones and esters) Atmospheric and ozone agents
Compatibility issue	Mineral oils and greases Hydrocarbons Low impermeability to gas
Temperature range	-45°C / +150°C (short-term peak at +175°C)

HNBR (Hydrogenated Nitrile Butadiene Rubber)

This HNBR-based elastomer is obtained through selective hydrogenation of the NBR's butadiene groups. It is commonly used for power-assisted steering and for air conditioning.

Chemical resistance	Aliphatic hydrocarbons Mineral and vegetable oils and greases Fire-resistant fluids (HFA, HFB and HFC) Diluted acids, saline solutions and bases for low temperatures Water and steam up to +150°C Atmospheric and ozone agents
Compatibility issue	Chlorinated hydrocarbons Polar solvents (ketones, esters and ethers) Strong acids
Temperature range	-30°C / +150°C (short-term peak at +160°C) -40°C / +150°C with special HNBRs

VMQ (silicone rubber: methyl vinyl polysiloxane)

This FVMQ-based rubber is very often used for fuel systems.

Chemical resistance	Animal and vegetable oils and greases Moderate water temperature Diluted saline solutions Atmospheric and ozone agents
Compatibility issue	Superheated steam up to +120°C Chlorinated hydrocarbons with a low molecular weight (trichlorethylene) Aromatic hydrocarbons (benzene, toluene)
Temperature range	-60°C / +200°C (short-term peak at +230°C)

FVMQ (fluorosilicone rubber)

The FVMQ has mechanical and physical properties that are very similar to those of VMQ. However, the FVMQ offers better resistance to fuels and mineral oils. However, resistance to hot air is not as good as that of VMQ.

Chemical resistance	Aromatic mineral oils (IRM 903 oil) Fuels Aromatic hydrocarbons with a low molecular weight (benzene, toluene)
Temperature range	-70°C / +175°C

ACM (Polyacrylate)

Polymers containing ethyl acrylate (or butyl acrylate) have a small amount of monomer, which is necessary for cross-linking; ACM is a material with better heat resistance than NBR. It is often used for automatic gearboxes.

Chemical resistance	Mineral oils (motor oils, gear box oils, ATF oils) Atmospheric and ozone agents
Compatibility issue	Glycol-based brake fluids (Dot 3 & 4) Aromatic and chlorinated hydrocarbons Water and steam Acids, alkalis and amines
Temperature range	-25°C to + 150°C (short-term peak at +160°C) -35°C / +150°C with special ACMs

AEM (ethylene acrylate rubber)

As a methyl acrylate and ethylene copolymer, AEM is considered to be better resistant to heat than ACM. Its characteristics make it an intermediary between ACM and FKM.

Chemical resistance	Coolants Aggressive mineral oils Atmospheric agents Water
Compatibility issue	Aromatic solvents Strong acids Brake fluids Gearbox oils ATF oils
Temperature range	- 40°C à + 150°C

CR (Polychloroprene)

This CR-based elastomer is used in the refrigeration industry and for ventilation systems. This chloroprene was the first synthetic rubber to be developed and marketed.

Chemical resistance	Paraffinic mineral oils Silicone oils and greases Water and water-based solvents for use at low temperatures Refrigerant fluids Ammoniac Carbon dioxide Atmospheric and ozone agents
Limited chemical resistance	Naphthenic mineral oils Aliphatic hydrocarbons (propane, butane, petroleum) Glycol-based brake fluids
Compatibility issue	Aromatic hydrocarbons (benzene) Chlorinated hydrocarbons (trichlorethylene) Polar solvents (ketone, acetone, acetic acid and ethylene-ester)
Temperature range	-40°C / +100°C (short-term peak at +120°C)

FFKM (perfluorinated rubber)

FFKM has the best resistance to high temperatures and an excellent chemical inertia. This FKM-based rubber is very often used for high-temperature hydraulic and pneumatic systems, industrial valves, injection/fuel systems, motor seals and high-vacuum systems.

Chemical resistance	Aliphatic and aromatic hydrocarbons Polar solvents (ketones, esters, ethers) Organic and inorganic acids Water and steam High-vacuum systems
Problème de compatibilité	Coolants (R11, R12, R13, R113, R114, etc.) PFPE
Temperature range	-15°C / +320°C

The table below gives an overview of the physical, chemical and mechanical characteristics for each of the materials.

Characteristics/Materials	ACM	AEM	CR	EPDM	FFKM	FKM	FVMQ	HNBR	NBR	VMQ
Resistance to abrasion	2	3	2	2	4	2	4	2	2	4
Acid resistant	4	3	2	2	1	1	3	1	3	3
Resistance to chemicals	4	2	2	1	1	1	1	2	2	2
Resistance to cold	4	2	2	2	3	4	2	2	2	2
Dynamic properties	3	3	3	2	3	2	4	1	2	4
Electrical properties	3	3	3	2	1	4	1	3	3	1
Resistance to fire	4	4	2	4	1	1	2	4	4	3
Resistance to heat	1	1	2	2	1	1	1	1	2	1
Sealing water	1	1	2	2	2	2	4	2	2	4
Resistance to oil	1	3	2	4	1	1	2	1	1	2
Resistance to ozone	1	1	2	1	1	1	1	2	4	1
Resistance to tearing	2	3	3	1	4	3	4	2	2	4
Tensile strength	3	2	2	1	2	1	3	1	2	4
Resistance to water / steam	4	4	3	1	2	3	3	1	2	3
Resistance to atmospheric agents	1	1	1	1	1	1	1	2	3	1

1. excellent properties 2. Good properties 3. Average properties 4. Poor properties

Chemical compatibility

A "Chemical compatibility guide" catalogue can be downloaded from the Literature section. You can also use our online "Chemical compatibility" tool free of charge.

These two tools enable you to measure the behaviour of our materials that come into contact with the majority of existing fluids. The data displayed is the result of rigorous testing at the ambient temperature and takes previous publications into consideration. Test results are not fully representative because of the specific features of your application. The tests performed actually do not consider additives and impurities that may exist under actual conditions of use, nor the potential elevation of temperatures. Other parameters can also alter the behaviour of our materials, such as the hardness, persistence, abrasion, etc. We therefore recommend performing your own tests to verify the compatibility of our materials depending on your specific application. Our technical team can provide you with any additional information.

Design recommendations

Tolerance on the inside diameter Ød1

The tolerances on the inside diameters Ød1 set out in the table below relate to standard ISO 3601-1:2008. If the dimensions of an O'Ring are not specified in standard ISO 3601-1:2008, we recommend that you calculate the tolerances to apply to the inside diameter Ød1 as follows:

Tolerance on Ød1 = ± [(d1^0′95 x 0,009) + 0,11]

Inside diameter Ød1	Tol.	Inside diameter Ød1	Tol.
0,74 ≤ Ød1 ≤ 1,78	± 0,12	242,00 < Ød1 ≤ 244,00	± 1,77
1,78 < Ød1 ≤ 3,00	± 0,13	244,00 < Ød1 ≤ 246,00	± 1,78
3,00 < Ød1 ≤ 4,20	± 0,14	246,00 < Ød1 ≤ 247,00	± 1,79
4,20 < Ød1 ≤ 5,50	± 0,15	247,00 < Ød1 ≤ 249,00	± 1,80
5,50 < Ød1 ≤ 6,75	± 0,16	249,00 < Ød1 ≤ 250,00	± 1,81
6,75 < Ød1 ≤ 8,10	± 0,17	250,00 < Ød1 ≤ 252,00	± 1,82
8,10 < Ød1 ≤ 9,50	± 0,18	252,00 < Ød1 ≤ 253,00	± 1,83
9,50 < Ød1 ≤ 10,69	± 0,19	253,00 < Ød1 ≤ 254,50	± 1,84
10,69 < Ød1 ≤ 12,00	± 0,20	254,50 < Ød1 ≤ 256,00	± 1,85
12,00 < Ød1 ≤ 13,30	± 0,21	256,00 < Ød1 ≤ 258,00	± 1,86
13,30 < Ød1 ≤ 14,80	± 0,22	258,00 < Ød1 ≤ 259,00	± 1,87
14,80 < Ød1 ≤ 16,00	± 0,23	259,00 < Ød1 ≤ 261,00	± 1,88
16,00 < Ød1 ≤ 17,30	± 0,24	261,00 < Ød1 ≤ 263,00	± 1,89
17,30 < Ød1 ≤ 18,72	± 0,25	263,00 < Ød1 ≤ 264,00	± 1,90
18,72 < Ød1 ≤ 20,22	± 0,26	264,00 < Ød1 ≤ 266,00	± 1,91
20,22 < Ød1 ≤ 21,50	± 0,27	266,00 < Ød1 ≤ 267,00	± 1,92
21,50 < Ød1 ≤ 23,00	± 0,28	267,00 < Ød1 ≤ 269,00	± 1,93
23,00 < Ød1 ≤ 24,20	± 0,29	269,00 < Ød1 ≤ 270,00	± 1,94
24,20 < Ød1 ≤ 25,50	± 0,30	270,00 < Ød1 ≤ 272,00	± 1,95
25,50 < Ød1 ≤ 27,00	± 0,31	272,00 < Ød1 ≤ 273,00	± 1,96
27,00 < Ød1 ≤ 28,24	± 0,32	273,00 < Ød1 ≤ 274,50	± 1,97
28,24 < Ød1 ≤ 29,70	± 0,33	274,50 < Ød1 ≤ 276,00	± 1,98
29,70 < Ød1 ≤ 31,12	± 0,34	276,00 < Ød1 ≤ 278,00	± 1,99
31,12 < Ød1 ≤ 32,50	± 0,35	278,00 < Ød1 ≤ 279,30	± 2,00
32,50 < Ød1 ≤ 34,00	± 0,36	279,30 < Ød1 ≤ 281,00	± 2,01
34,00 < Ød1 ≤ 35,20	± 0,37	281,00 < Ød1 ≤ 283,00	± 2,02
35,20 < Ød1 ≤ 37,00	± 0,38	283,00 < Ød1 ≤ 284,00	± 2,03
37,00 < Ød1 ≤ 38,00	± 0,39	284,00 < Ød1 ≤ 286,00	± 2,04
38,00 < Ød1 ≤ 39,40	± 0,40	286,00 < Ød1 ≤ 287,00	± 2,05
39,40 < Ød1 ≤ 40,87	± 0,41	287,00 < Ød1 ≤ 289,00	± 2,06
40,87 < Ød1 ≤ 42,30	± 0,42	289,00 < Ød1 ≤ 290,00	± 2,07
42,30 < Ød1 ≤ 43,70	± 0,43	290,00 < Ød1 ≤ 291,47	± 2,08
43,70 < Ød1 ≤ 45,30	± 0,44	291,47 < Ød1 ≤ 293,00	± 2,09
45,30 < Ød1 ≤ 46,99	± 0,45	293,00 < Ød1 ≤ 295,00	± 2,10
46,99 < Ød1 ≤ 48,00	± 0,46	295,00 < Ød1 ≤ 297,00	± 2,11
48,00 < Ød1 ≤ 49,30	± 0,47	297,00 < Ød1 ≤ 297,80	± 2,12
49,30 < Ød1 ≤ 50,80	± 0,48	297,80 < Ød1 ≤ 299,30	± 2,13
50,80 < Ød1 ≤ 52,30	± 0,49	299,30 < Ød1 ≤ 301,00	± 2,14
52,30 < Ød1 ≤ 53,57	± 0,50	301,00 < Ød1 ≤ 303,00	± 2,15
53,57 < Ød1 ≤ 55,00	± 0,51	303,00 < Ød1 ≤ 304,00	± 2,16
55,00 < Ød1 ≤ 56,52	± 0,52	304,00 < Ød1 ≤ 306,00	± 2,17
56,52 < Ød1 ≤ 58,00	± 0,53	306,00 < Ød1 ≤ 307,00	± 2,18
58,00 < Ød1 ≤ 59,30	± 0,54	307,00 < Ød1 ≤ 309,00	± 2,19
59,30 < Ød1 ≤ 61,00	± 0,55	309,00 < Ød1 ≤ 310,50	± 2,20
61,00 < Ød1 ≤ 62,30	± 0,56	310,50 < Ød1 ≤ 312,00	± 2,21
62,30 < Ød1 ≤ 64,00	± 0,57	312,00 < Ød1 ≤ 314,00	± 2,22
64,00 < Ød1 ≤ 65,10	± 0,58	314,00 < Ød1 ≤ 315,00	± 2,23
65,10 < Ød1 ≤ 66,60	± 0,59	315,00 < Ød1 ≤ 316,87	± 2,24
66,60 < Ød1 ≤ 67,95	± 0,60	316,87 < Ød1 ≤ 318,00	± 2,25
67,95 < Ød1 ≤ 69,40	± 0,61	318,00 < Ød1 ≤ 319,50	± 2,26
69,40 < Ød1 ≤ 71,00	± 0,62	319,50 < Ød1 ≤ 321,50	± 2,27
71,00 < Ød1 ≤ 72,39	± 0,63	321,50 < Ød1 ≤ 323,00	± 2,28
72,39 < Ød1 ≤ 74,00	± 0,64	323,00 < Ød1 ≤ 325,00	± 2,29
74,00 < Ød1 ≤ 75,57	± 0,65	325,00 < Ød1 ≤ 326,00	± 2,30
75,57 < Ød1 ≤ 77,00	± 0,66	326,00 < Ød1 ≤ 328,00	± 2,31
77,00 < Ød1 ≤ 78,50	± 0,67	328,00 < Ød1 ≤ 329,00	± 2,32
78,50 < Ød1 ≤ 79,60	± 0,68	329,00 < Ød1 ≤ 331,00	± 2,33
79,60 < Ød1 ≤ 81,00	± 0,69	331,00 < Ød1 ≤ 332,00	± 2,34
81,00 < Ød1 ≤ 82,50	± 0,70	332,00 < Ød1 ≤ 334,00	± 2,35
82,50 < Ød1 ≤ 84,00	± 0,71	334,00 < Ød1 ≤ 335,90	± 2,36
84,00 < Ød1 ≤ 86,00	± 0,72	335,90 < Ød1 ≤ 337,00	± 2,37
86,00 < Ød1 ≤ 87,00	± 0,73	337,00 < Ød1 ≤ 339,00	± 2,38
87,00 < Ød1 ≤ 88,49	± 0,74	339,00 < Ød1 ≤ 340,00	± 2,39
88,49 < Ød1 ≤ 90,00	± 0,75	340,00 < Ød1 ≤ 342,00	± 2,40
90,00 < Ød1 ≤ 91,44	± 0,76	342,00 < Ød1 ≤ 343,00	± 2,41
91,44 < Ød1 ≤ 93,00	± 0,77	343,00 < Ød1 ≤ 345,00	± 2,42
93,00 < Ød1 ≤ 94,30	± 0,78	345,00 < Ød1 ≤ 347,00	± 2,43
94,30 < Ød1 ≤ 96,00	± 0,79	347,00 < Ød1 ≤ 348,00	± 2,44
96,00 < Ød1 ≤ 97,50	± 0,80	348,00 < Ød1 ≤ 350,00	± 2,45
97,50 < Ød1 ≤ 99,00	± 0,81	350,00 < Ød1 ≤ 351,00	± 2,46
99,00 < Ød1 ≤ 100,50	± 0,82	351,00 < Ød1 ≤ 353,00	± 2,47
100,50 < Ød1 ≤ 101,60	± 0,83	353,00 < Ød1 ≤ 354,00	± 2,48
101,60 < Ød1 ≤ 103,00	± 0,84	354,00 < Ød1 ≤ 356,00	± 2,49
103,00 < Ød1 ≤ 104,50	± 0,85	356,00 < Ød1 ≤ 358,00	± 2,50
104,50 < Ød1 ≤ 106,00	± 0,86	358,00 < Ød1 ≤ 359,00	± 2,51
106,00 < Ød1 ≤ 107,54	± 0,87	359,00 < Ød1 ≤ 361,00	± 2,52
107,54 < Ød1 ≤ 109,00	± 0,88	361,00 < Ød1 ≤ 362,00	± 2,53
109,00 < Ød1 ≤ 110,49	± 0,89	362,00 < Ød1 ≤ 364,00	± 2,54
110,49 < Ød1 ≤ 112,00	± 0,90	364,00 < Ød1 ≤ 365,00	± 2,55
112,00 < Ød1 ≤ 113,67	± 0,91	365,00 < Ød1 ≤ 367,00	± 2,56
113,67 < Ød1 ≤ 115,00	± 0,92	367,00 < Ød1 ≤ 369,00	± 2,57
115,00 < Ød1 ≤ 116,84	± 0,93	369,00 < Ød1 ≤ 370,00	± 2,58
116,84 < Ød1 ≤ 118,00	± 0,94	370,00 < Ød1 ≤ 372,00	± 2,59
118,00 < Ød1 ≤ 119,30	± 0,95	372,00 < Ød1 ≤ 373,00	± 2,60
119,30 < Ød1 ≤ 121,00	± 0,96	373,00 < Ød1 ≤ 374,50	± 2,61
121,00 < Ød1 ≤ 123,00	± 0,97	374,50 < Ød1 ≤ 376,00	± 2,62
123,00 < Ød1 ≤ 123,83	± 0,98	376,00 < Ød1 ≤ 378,00	± 2,63
123,83 < Ød1 ≤ 126,00	± 0,99	378,00 < Ød1 ≤ 379,30	± 2,64
126,00 < Ød1 ≤ 126,72	± 1,00	379,30 < Ød1 ≤ 381,00	± 2,65
126,72 < Ød1 ≤ 129,00	± 1,01	381,00 < Ød1 ≤ 383,00	± 2,66
129,00 < Ød1 ≤ 129,77	± 1,02	383,00 < Ød1 ≤ 384,00	± 2,67
129,77 < Ød1 ≤ 131,50	± 1,03	384,00 < Ød1 ≤ 386,00	± 2,68
131,50 < Ød1 ≤ 132,72	± 1,04	386,00 < Ød1 ≤ 387,00	± 2,69
132,72 < Ød1 ≤ 134,30	± 1,05	387,00 < Ød1 ≤ 389,00	± 2,70
134,30 < Ød1 ≤ 135,76	± 1,06	389,00 < Ød1 ≤ 391,00	± 2,71
135,76 < Ød1 ≤ 138,00	± 1,07	391,00 < Ød1 ≤ 392,00	± 2,72
138,00 < Ød1 ≤ 138,94	± 1,08	392,00 < Ød1 ≤ 394,00	± 2,73
138,94 < Ød1 ≤ 140,50	± 1,09	394,00 < Ød1 ≤ 395,00	± 2,74
140,50 < Ød1 ≤ 142,00	± 1,10	395,00 < Ød1 ≤ 397,00	± 2,75
142,00 < Ød1 ≤ 144,00	± 1,11	397,00 < Ød1 ≤ 398,00	± 2,76
144,00 < Ød1 ≤ 145,00	± 1,12	398,00 < Ød1 ≤ 400,00	± 2,77
145,00 < Ød1 ≤ 147,00	± 1,13	400,00 < Ød1 ≤ 402,00	± 2,78
147,00 < Ød1 ≤ 148,00	± 1,14	402,00 < Ød1 ≤ 403,00	± 2,79
148,00 < Ød1 ≤ 149,23	± 1,15	403,00 < Ød1 ≤ 405,00	± 2,80
149,23 < Ød1 ≤ 151,00	± 1,16	405,00 < Ød1 ≤ 406,00	± 2,81
151,00 < Ød1 ≤ 152,50	± 1,17	406,00 < Ød1 ≤ 408,00	± 2,82
152,50 < Ød1 ≤ 154,00	± 1,18	408,00 < Ød1 ≤ 409,00	± 2,83
154,00 < Ød1 ≤ 155,50	± 1,19	409,00 < Ød1 ≤ 411,00	± 2,84
155,50 < Ød1 ≤ 157,00	± 1,20	411,00 < Ød1 ≤ 413,00	± 2,85
157,00 < Ød1 ≤ 158,34	± 1,21	413,00 < Ød1 ≤ 414,00	± 2,86
158,34 < Ød1 ≤ 160,00	± 1,22	414,00 < Ød1 ≤ 416,00	± 2,87
160,00 < Ød1 ≤ 161,30	± 1,23	416,00 < Ød1 ≤ 417,00	± 2,88
161,30 < Ød1 ≤ 163,00	± 1,24	417,00 < Ød1 ≤ 419,00	± 2,89
163,00 < Ød1 ≤ 164,30	± 1,25	419,00 < Ød1 ≤ 421,00	± 2,90
164,30 < Ød1 ≤ 166,00	± 1,26	421,00 < Ød1 ≤ 422,00	± 2,91
166,00 < Ød1 ≤ 167,50	± 1,27	422,00 < Ød1 ≤ 424,00	± 2,92
167,50 < Ød1 ≤ 169,00	± 1,28	424,00 < Ød1 ≤ 425,00	± 2,93
169,00 < Ød1 ≤ 170,69	± 1,29	425,00 < Ød1 ≤ 427,00	± 2,94
170,69 < Ød1 ≤ 172,00	± 1,30	427,00 < Ød1 ≤ 428,00	± 2,95
172,00 < Ød1 ≤ 173,87	± 1,31	428,00 < Ød1 ≤ 430,00	± 2,96
173,87 < Ød1 ≤ 175,00	± 1,32	430,00 < Ød1 ≤ 432,00	± 2,97
175,00 < Ød1 ≤ 177,00	± 1,33	432,00 < Ød1 ≤ 433,00	± 2,98
177,00 < Ød1 ≤ 178,00	± 1,34	433,00 < Ød1 ≤ 435,00	± 2,99
178,00 < Ød1 ≤ 179,50	± 1,35	435,00 < Ød1 ≤ 436,00	± 3,00
179,50 < Ød1 ≤ 181,00	± 1,36	436,00 < Ød1 ≤ 438,00	± 3,01
181,00 < Ød1 ≤ 182,50	± 1,37	438,00 < Ød1 ≤ 439,30	± 3,02
182,50 < Ød1 ≤ 184,00	± 1,38	439,30 < Ød1 ≤ 441,00	± 3,03
184,00 < Ød1 ≤ 186,00	± 1,39	441,00 < Ød1 ≤ 443,00	± 3,04
186,00 < Ød1 ≤ 187,00	± 1,40	443,00 < Ød1 ≤ 444,00	± 3,05
187,00 < Ød1 ≤ 189,00	± 1,41	444,00 < Ød1 ≤ 446,00	± 3,06
189,00 < Ød1 ≤ 190,00	± 1,42	446,00 < Ød1 ≤ 447,00	± 3,07
190,00 < Ød1 ≤ 192,00	± 1,43	447,00 < Ød1 ≤ 449,00	± 3,08
192,00 < Ød1 ≤ 193,00	± 1,44	449,00 < Ød1 ≤ 451,00	± 3,09
193,00 < Ød1 ≤ 195,00	± 1,45	451,00 < Ød1 ≤ 452,00	± 3,10
195,00 < Ød1 ≤ 196,22	± 1,46	452,00 < Ød1 ≤ 454,00	± 3,11
196,22 < Ød1 ≤ 198,00	± 1,47	454,00 < Ød1 ≤ 455,00	± 3,12
198,00 < Ød1 ≤ 199,10	± 1,48	455,00 < Ød1 ≤ 457,00	± 3,13
199,10 < Ød1 ≤ 201,00	± 1,49	457,00 < Ød1 ≤ 459,00	± 3,14
201,00 < Ød1 ≤ 202,57	± 1,50	459,00 < Ød1 ≤ 460,00	± 3,15
202,57 < Ød1 ≤ 204,00	± 1,51	460,00 < Ød1 ≤ 462,00	± 3,16
204,00 < Ød1 ≤ 206,00	± 1,52	462,00 < Ød1 ≤ 463,00	± 3,17
206,00 < Ød1 ≤ 207,00	± 1,53	463,00 < Ød1 ≤ 465,00	± 3,18
207,00 < Ød1 ≤ 208,50	± 1,54	465,00 < Ød1 ≤ 467,00	± 3,19
208,50 < Ød1 ≤ 210,00	± 1,55	467,00 < Ød1 ≤ 468,00	± 3,20
210,00 < Ød1 ≤ 212,00	± 1,56	468,00 < Ød1 ≤ 470,00	± 3,21
212,00 < Ød1 ≤ 213,00	± 1,57	470,00 < Ød1 ≤ 471,00	± 3,22
213,00 < Ød1 ≤ 214,50	± 1,58	471,00 < Ød1 ≤ 473,00	± 3,23
214,50 < Ød1 ≤ 216,00	± 1,59	473,00 < Ød1 ≤ 475,00	± 3,24
216,00 < Ød1 ≤ 218,00	± 1,60	475,00 < Ød1 ≤ 476,00	± 3,25
218,00 < Ød1 ≤ 219,00	± 1,61	476,00 < Ød1 ≤ 478,00	± 3,26
219,00 < Ød1 ≤ 221,00	± 1,62	478,00 < Ød1 ≤ 479,00	± 3,27
221,00 < Ød1 ≤ 222,00	± 1,63	479,00 < Ød1 ≤ 481,00	± 3,28
222,00 < Ød1 ≤ 224,00	± 1,64	481,00 < Ød1 ≤ 482,00	± 3,29
224,00 < Ød1 ≤ 226,00	± 1,65	482,00 < Ød1 ≤ 484,00	± 3,30
226,00 < Ød1 ≤ 227,00	± 1,66	484,00 < Ød1 ≤ 486,00	± 3,31
227,00 < Ød1 ≤ 228,19	± 1,67	486,00 < Ød1 ≤ 487,00	± 3,32
228,19 < Ød1 ≤ 230,00	± 1,68	487,00 < Ød1 ≤ 489,00	± 3,33
230,00 < Ød1 ≤ 232,00	± 1,69	489,00 < Ød1 ≤ 490,00	± 3,34
232,00 < Ød1 ≤ 233,00	± 1,70	490,00 < Ød1 ≤ 492,00	± 3,35
233,00 < Ød1 ≤ 234,32	± 1,71	492,00 < Ød1 ≤ 494,00	± 3,36
234,32 < Ød1 ≤ 236,00	± 1,72	494,00 < Ød1 ≤ 495,00	± 3,37
236,00 < Ød1 ≤ 237,50	± 1,73	495,00 < Ød1 ≤ 497,00	± 3,38
237,50 < Ød1 ≤ 239,00	± 1,74	497,00 < Ød1 ≤ 498,00	± 3,39
239,00 < Ød1 ≤ 240,67	± 1,75	498,00 < Ød1 ≤ 500,00	± 3,40
240,67 < Ød1 ≤ 242,00	± 1,76	500,00 < Ød1 ≤ 504,00	± 3,41

Tolerance on the cross-section Ød2

The tolerances on standardised cross-sections Ød2 set out in the table below relate to standard ISO 3601-1:2008.

Cross-section Ød2	Tolerances
1,02	± 0,08
1,27	± 0,08
1,52	± 0,08
1,78	± 0,08
2,62	± 0,09
3,53	± 0,10
5,33	± 0,13
6,99	± 0,15

The tolerances on non-standardised cross-sections Ød2 set out in the table below relate to standard ISO 3601-1:2008.

Cross-section Ød2	Tolerances
0,80 < d2 ≤ 2,25	± 0,08
2,25 < d2 ≤ 3,15	± 0,09
3,15 < d2 ≤ 4,50	± 0,10
4,50 < d2 ≤ 6,30	± 0,13
6,30 < d2 ≤ 8,40	± 0,15
8,40 < d2 ≤ 10,00	± 0,21

Static sealing - Installation in a rectangular groove with radial deformation

Static sealing - Installation in a rectangular groove with radial deformation - BECA 010

The O'Ring ensures sealing under radial deformation at the cross-section Ød2.

For rod sealing (inside sealing), the dimension of the O'Ring should be selected so that the outside diameter of the O'Ring is 0.5% to 5% greater than the groove diameter Ød6.

For piston sealing (outside sealing), the dimension of the O'Ring should be selected so that the inside diameter Ød1 of the O'Ring is 0.5% to 8% smaller than the groove diameter Ød3.

The table below sets out the tightening values (min and max) according to the cross-section Ød2

Squeeze - Hydraulic and Pneumatic static sealing - O'Ring

The table below sets out the design recommendations - Rectangular groove - Radial static pneumatic and hydraulic sealing

Cross-section Ød2	Groove depth t 0/+0,05	Groove width L1 0/+0,20	Groove radius R1
0,50	0,35	1,00	0,20
0,74	0,50	1,40	0,20
1,00	0,72	1,60	0,20
1,02	0,72	1,65	0,20
1,20	0,85	1,90	0,20
1,25	0,90	1,90	0,20
1,27	0,90	2,00	0,20
1,30	0,95	2,00	0,20
1,42	1,05	2,20	0,30
1,50	1,10	2,20	0,30
1,52	1,10	2,30	0,30
1,53	1,10	2,30	0,30
1,60	1,15	2,50	0,30
1,63	1,20	2,40	0,30
1,78	1,30	2,70	0,30
1,80	1,30	2,70	0,30
1,83	1,35	2,70	0,30
1,90	1,40	2,80	0,30
1,98	1,50	2,80	0,30
2,00	1,50	2,90	0,30
2,08	1,55	3,00	0,30
2,10	1,55	3,00	0,30
2,20	1,60	3,20	0,30
2,21	1,60	3,20	0,30
2,30	1,75	3,20	0,30
2,34	1,75	3,30	0,30
2,40	1,80	3,40	0,30
2,46	1,85	3,50	0,30
2,50	1,90	3,50	0,30
2,62	2,00	3,60	0,30
2,65	2,00	3,70	0,30
2,70	2,05	3,80	0,30
2,80	2,10	4,30	0,60
2,92	2,20	4,50	0,60
2,95	2,20	4,50	0,60
3,00	2,30	4,50	0,60
3,10	2,40	4,60	0,60
3,15	2,45	4,60	0,60
3,50	2,70	5,10	0,60
3,53	2,70	5,10	0,60
3,55	2,70	5,20	0,60
3,60	2,80	5,20	0,60
4,00	3,10	5,60	0,60
4,50	3,55	6,20	0,60
5,00	4,00	6,70	0,60
5,30	4,30	6,90	0,60
5,33	4,30	7,10	0,60
5,50	4,50	7,10	0,60
5,70	4,60	7,40	0,60
6,00	4,90	7,80	0,60
6,50	5,40	8,70	1,00
6,99	5,80	9,30	1,00
7,00	5,80	9,50	1,00
7,50	6,30	9,70	1,00
8,00	6,70	10,20	1,00
8,40	7,10	10,50	1,00
9,00	7,65	12,30	1,50
9,50	8,20	12,70	1,50
10,00	8,60	15,10	2,00
12,00	10,30	17,00	2,00

These values are provided for information purposes only. We recommend refining your design using our O'Ring calculator, which is available free in the "Tools" tab on the website.

Static sealing - Installation in a rectangular groove with axial deformation

Housing Groove axial static O'Ring - BECA 010

Flange and cover sealing is generally ensured by an O'Ring that is subject to axial deformation. The groove dimensions are determined according to the direction of the pressure.

When the pressure is directed from the outside in, the inside diameter Ød1 of the O'Ring must be 0% to 2% less than the inside diameter of the groove.

On the other hand, when the pressure is directed from the inside out, the outside diameter of the O'Ring must be 0% to 2% greater than the outside diameter of the groove.

These recommendations depend on the dimensions of the O-ring concerned.

The table below sets out the tightening values (min and max) according to the cross-section Ød2

Axial seal tightening on an O'Ring

The table below sets out the design recommendations - Rectangular groove - Axial static sealing

Cross-section Ød2	Groove depth h 0/+0,05	Groove width L4 0/+0,20	Radius R1
0,50	0,33	1,10	0,20
0,74	0,45	1,60	0,20
1,00	0,65	1,90	0,20
1,02	0,67	1,90	0,20
1,20	0,81	2,10	0,20
1,25	0,85	2,10	0,20
1,27	0,89	2,10	0,20
1,30	0,91	2,10	0,20
1,42	1,00	2,30	0,30
1,50	1,05	2,40	0,30
1,52	1,07	2,40	0,30
1,53	1,08	2,40	0,30
1,60	1,15	2,50	0,30
1,63	1,15	2,50	0,30
1,78	1,30	2,70	0,30
1,80	1,30	2,80	0,30
1,83	1,35	2,80	0,30
1,90	1,40	2,90	0,30
1,98	1,45	3,00	0,30
2,00	1,45	3,00	0,30
2,08	1,50	3,10	0,30
2,10	1,50	3,20	0,30
2,20	1,60	3,30	0,30
2,21	1,60	3,30	0,30
2,30	1,65	3,40	0,30
2,34	1,70	3,40	0,30
2,40	1,75	3,50	0,30
2,46	1,80	3,60	0,30
2,50	1,80	3,70	0,30
2,62	1,95	3,70	0,30
2,65	2,00	3,70	0,30
2,70	2,05	3,80	0,30
2,80	2,15	4,00	0,60
2,92	2,20	4,20	0,60
2,95	2,25	4,20	0,60
3,00	2,30	4,30	0,60
3,10	2,40	4,40	0,60
3,15	2,40	4,50	0,60
3,50	2,70	4,80	0,60
3,53	2,75	4,80	0,60
3,55	2,80	4,80	0,60
3,60	2,85	4,90	0,60
4,00	3,20	5,30	0,60
4,50	3,60	5,80	0,60
5,00	4,00	6,50	0,60
5,30	4,20	6,90	0,60
5,33	4,30	6,80	0,60
5,50	4,50	6,90	0,60
5,70	4,70	7,10	0,60
6,00	4,90	7,40	0,60
6,50	5,30	8,40	1,00
6,99	5,80	8,80	1,00
7,00	5,80	8,80	1,00
7,50	6,30	9,20	1,00
8,00	6,70	9,80	1,00
8,40	7,20	10,00	1,00
9,00	7,60	11,50	1,50
9,50	8,00	12,10	1,50
10,00	8,70	13,10	2,00
12,00	10,40	15,30	2,00

These values are provided for information purposes only. We recommend refining your design using our O'Ring calculator, which is available free in the "Tools" tab on the website.

Static sealing - Installation in a triangular groove

Static sealing - Installation in a triangular groove - BECA 010

We use these types of fittings for cover or flange seals. This type of groove is difficult to machine and only allows a reduced swelling of the O'Ring. The values included in the table below set out all of our recommendations so that the connection between the cross-section Ød2 of the O'Ring and the length of the edge C gives a full seal. It is, however, preferable to use a rectangular groove as far as possible.

The table below sets out the design recommendations - Triangular groove - Static sealing.

Cross-section Ød2	Length of the edge C	Radius R1
1,78 - 1,80	2,40	0,30
1,83	2,50	0,30
1,90	2,55	0,30
1,98	2,70	0,30
2,00	2,70	0,40
2,08	2,70	0,40
2,10	2,70	0,40
2,20	3,00	0,40
2,21	3,00	0,40
2,30	3,10	0,40
2,34	3,15	0,40
2,40	3,20	0,40
2,46	3,30	0,40
2,50	3,40	0,60
2,62 - 2,65	3,50	0,60
2,70	3,60	0,60
2,80	3,80	0,60
2,92	3,90	0,60
2,95	4,00	0,60
3,00	4,00	0,60
3,10	4,20	0,60
3,15	4,30	0,60
3,50	4,80	0,60
3,53 - 3,55	4,80	0,90
3,60	4,90	0,90
4,00	5,40	1,20
4,50	6,10	1,20
5,00	6,80	1,20
5,30 - 5,33	7,20	1,50
5,50	7,50	1,50
5,70	7,70	1,50
6,00	8,10	1,50
6,50	8,80	1,50
6,99 - 7,00	9,50	2,00
7,50	10,10	2,00
8,00	10,80	2,00
8,40	11,40	2,00
9,00	13,20	2,00
9,50	13,90	2,00
10,00	14,70	2,50
12,00	17,60	2,50

These values are provided for information purposes only. We recommend refining your design using our O'Ring calculator, which is available free in the "Tools" tab on the website.

Static sealing - Installation in a trapezoidal groove

Static sealing - Installation in a trapezoidal groove - BECA 010

In specific cases, the O'Ring must be mechanically held in its groove. In this case, it is possible to mount the O'Ring in a trapezoidal groove. This installation is typically used in several static applications, and only from a cross-section of 3.53 mm. The installation dimensions are listed in the table below.

The table below sets out the design recommendations - Trapezoidal groove - Static pneumatic and hydraulic sealing

Cross-section Ød2	Groove depth t +/-0,05	Groove width L1 +/-0,05	Groove width L2 +/-0,05	Groove radius R1	Groove radius R2
3,53 - 3,55	2,90	2,90	3,20	0,25	0,80
3,60	3,00	3,00	3,45	0,25	0,80
4,00	3,20	3,40	3,70	0,25	0,80
4,50	3,70	3,85	4,15	0,25	0,80
5,00	4,20	4,30	4,60	0,25	0,80
5,30 - 5,33	4,60	4,60	4,90	0,40	0,80
5,50	4,70	4,70	5,00	0,40	0,80
5,70	4,80	4,75	5,25	0,40	0,80
6,00	5,10	5,05	5,55	0,40	0,80
6,50	5,50	5,55	6,00	0,40	0,80
6,99 - 7,00	6,00	6,00	6,50	0,40	1,60
7,50	6,40	6,45	6.95	0,40	1,60
8,00	6,90	6,85	7,45	0,40	1,60
8,40	7,30	7,25	7,85	0,40	1,60
9,00	7,50	7,50	8,10	0,50	1,60
9,50	7,90	7,90	8,60	0,50	1,60
10,00	8,25	8,30	9,00	0,60	1,70
12,00	10,20	10,25	11,00	0,60	1,70

These values are provided for information purposes only. We recommend refining your design using our O'Ring calculator, which is available free in the "Tools" tab on the website.

Hydraulic axial movement sealing - Installation in a rectangular groove with radial deformation

Dynamic sealing - Linear motion - Installation in a rectangular groove with radial deformation - BECA 010

O'Rings can be used as sealing components for hydraulic applications in linear motion. However, they have an average efficiency and are only suitable for relatively low travel and frequencies. Other seal profiles are prioritised for such applications (see the hydraulic seals range).

For rod sealing (inside sealing), the dimension of the O'Ring should be selected so that the outside diameter of the O'Ring is 0.5% to 5% greater than the groove diameter Ød6.

For piston sealing (outside sealing), the dimension of the O'Ring should be selected so that the inside diameter Ød1 of the O'Ring is 0.5% to 5% smaller than the groove diameter Ød3.

The table below sets out the tightening values (min and max) according to the cross-section Ød2

O'ring dynamic hydraulic seal tightening

The table below sets out the design recommendations - Rectangular groove - Dynamic hydraulic sealing for linear movements

Cross-section Ød2	Groove depth t 0/+0,05	Groove width L1 0/+0,20	Groove radius R1
1,50	1,10	2,25	0,30
1,52	1,13	2,25	0,30
1,53	1,13	2,30	0,30
1,60	1,20	2,40	0,30
1,63	1,20	2,45	0,30
1,78	1,35	2,60	0,30
1,80	1,35	2,60	0,30
1,83	1,40	2,60	0,30
1,90	1,45	2,70	0,30
1,98	1,50	2,80	0,30
2,00	1,55	2,80	0,30
2,08	1,60	2,90	0,30
2,10	1,60	2,90	0,30
2,20	1,70	3,00	0,30
2,21	1,70	3,00	0,30
2,30	1,80	3,10	0,30
2,34	1,85	3,20	0,30
2,40	1,90	3,20	0,30
2,46	1,95	3,30	0,30
2,50	1,95	3,40	0,30
2,62	2,05	3,50	0,30
2,65	2,10	3,50	0,30
2,70	2,15	3,60	0,30
2,80	2,25	4,00	0,60
2,92	2,35	4,20	0,60
2,95	2,35	4,20	0,60
3,00	2,40	4,30	0,60
3,10	2,50	4,40	0,60
3,15	2,55	4,50	0,60
3,50	2,85	4,90	0,60
3,53	2,85	4,90	0,60
3,55	2,90	4,90	0,60
3,60	2,95	4,90	0,60
4,00	3,25	5,40	0,60
4,50	3,70	5,90	0,60
5,00	4,10	6,60	0,60
5,30	4,40	6,80	0,60
5,33	4,40	6,80	0,60
5,50	4,65	6,80	0,60
5,70	4,80	7,10	0,60
6,00	5,10	7,40	0,60
6,50	5,50	8,60	1,00
6,99	5,90	9,20	1,00
7,00	5,90	9,20	1,00
7,50	6,50	9,50	1,00
8,00	7,00	9,90	1,00
8,40	7,30	10,30	1,00
9,00	7,80	11,20	1,50
9,50	8,10	11,90	1,50
10,00	8,80	12,00	2,00
12,00	10,60	14,30	2,00

These values are provided for information purposes only. We recommend refining your design using our O'Ring calculator, which is available free in the "Tools" tab on the website.

Hydraulic rotation motion sealing - Installation in a rectangular groove with radial deformation

Dynamic sealing - Rotational movements - Installation in a rectangular groove with radial deformation - BECA 010

O'Rings can be used for rotational movements in certain less aggressive and casual applications. However, other seal profiles are prioritised for such applications (see the rotary seals range). In general, O'Rings have a tendency to contract under the effects of heat, which increases tightening on the rotating shaft, preventing the formation of a lubricating film and increasing friction at the same time. In order to prevent this type of significant wear, we recommend selecting an O'Ring dimension where the outside diameter of the O'Ring is 0.5% to 5% larger than the groove diameter Ød6 in the shaft seal. Conversely, the inside diameter Ød1 of the O'Ring must be 0.5% to 5% smaller than the groove diameter Ød3.

Rubber-based materials with MOS₂ or PTFE reduce friction and increase the lifespan of O'Rings. The table below sets out the installation dimensions to follow.

The table below sets out the tightening values (min and max) according to the cross-section Ød2

O'ring dynamic hydraulic seal tightening

The table below sets out the design recommendations - Rectangular groove - Dynamic hydraulic sealing for rotating movements

Cross-section Ød2	Groove depth t 0/+0,05	Groove width L1 0/+0,20	Groove radius R1
1,50	1,10	2,25	0,30
1,52	1,13	2,25	0,30
1,53	1,13	2,30	0,30
1,60	1,20	2,40	0,30
1,63	1,20	2,45	0,30
1,78	1,35	2,60	0,30
1,80	1,35	2,60	0,30
1,83	1,40	2,60	0,30
1,90	1,45	2,70	0,30
1,98	1,50	2,80	0,30
2,00	1,55	2,80	0,30
2,08	1,60	2,90	0,30
2,10	1,60	2,90	0,30
2,20	1,70	3,00	0,30
2,21	1,70	3,00	0,30
2,30	1,80	3,10	0,30
2,34	1,85	3,20	0,30
2,40	1,90	3,20	0,30
2,46	1,95	3,30	0,30
2,50	1,95	3,40	0,30
2,62	2,05	3,50	0,30
2,65	2,10	3,50	0,30
2,70	2,15	3,60	0,30
2,80	2,25	4,00	0,60
2,92	2,35	4,20	0,60
2,95	2,35	4,20	0,60
3,00	2,40	4,30	0,60
3,10	2,50	4,40	0,60
3,15	2,55	4,50	0,60
3,50	2,85	4,90	0,60
3,53	2,85	4,90	0,60
3,55	2,90	4,90	0,60
3,60	2,95	4,90	0,60
4,00	3,25	5,40	0,60
4,50	3,70	5,90	0,60
5,00	4,10	6,60	0,60
5,30	4,40	6,80	0,60
5,33	4,40	6,80	0,60
5,50	4,65	6,80	0,60
5,70	4,80	7,10	0,60
6,00	5,10	7,40	0,60
6,50	5,50	8,60	1,00
6,99	5,90	9,20	1,00
7,00	5,90	9,20	1,00
7,50	6,50	9,50	1,00
8,00	7,00	9,90	1,00
8,40	7,30	10,30	1,00
9,00	7,80	11,20	1,50
9,50	8,10	11,90	1,50
10,00	8,80	12,00	2,00
12,00	10,60	14,30	2,00

These values are provided for information purposes only. We recommend refining your design using our O'Ring calculator, which is available free in the "Tools" tab on the website.

Pneumatic axial movement sealing - Installation in a rectangular groove without O'Ring compression under pressure (float-mounted fitting)

Dynamic pneumatic sealing - Installation in a rectangular groove - Without O'Ring compression under pressure (float-mounted fitting) - BECA 010

The float-mounting principle, without radial deformation on the O'Ring, is mainly used for pneumatic applications. When pressurised, a volume of air leaks out until the gap is filled between the piston and the cylinder (piston seal) or between the rod and the tip of the cylinder (rod seal).

For rod sealing (inside sealing), the dimension of the O'Ring should be selected so that the inside diameter Ød1 of the O'Ring is 0.5% to 5% smaller than the rod diameter Ød5.

For piston sealing (outside sealing), the dimension of the O'Ring should be selected so that the outside diameter of the O'Ring is 0.5% to 5% larger than the groove diameter Ød3.

The table below sets out the design recommendations - Rectangular groove - Pneumatic sealing - Float-mounted fitting

Cross-section Ød2	Groove depth t 0/+0,05	Groove width L1 0/+0,20	Groove radius R1
1,50	1,75	1,65	0,30
1,52	1,80	1,65	0,30
1,53	1,80	1,70	0,30
1,60	1,85	1,75	0,30
1,63	1,85	1,75	0,30
1,78	2,05	1,95	0,30
1,80	2,05	1,95	0,30
1,83	2,10	2,00	0,30
1,90	2,20	2,05	0,30
1,98	2,30	2,20	0,30
2,00	2,30	2,20	0,30
2,08	2,35	2,30	0,30
2,10	2,40	2,30	0,30
2,20	2,50	2,40	0,30
2,21	2,50	2,40	0,30
2,30	2,60	2,50	0,30
2,34	2,65	2,50	0,30
2,40	2,70	2,60	0,30
2,46	2,85	2,65	0,30
2,50	2,80	2,70	0,30
2,62	2,95	2,95	0,30
2,65	2,95	2,95	0,30
2,70	3,10	2,90	0,30
2,80	3,20	3,00	0,60
2,92	3,30	3,15	0,60
2,95	3,40	3,20	0,60
3,00	3,45	3,30	0,60
3,10	3,50	3,40	0,60
3,15	3,60	3,40	0,60
3,50	4,00	3,80	0,60
3,53	4,00	3,80	0,60
3,55	4,05	3,80	0,60
3,60	4,05	3,80	0,60
4,00	4,55	4,30	0,60
4,50	4,95	4,80	0,60
5,00	5,45	5,30	0,60
5,30	5,75	5,50	0,60
5,33	5,80	5,60	0,60
5,50	6,00	5,80	0,60
5,70	6,20	6,00	0,60
6,00	6,50	6,30	0,60
6,50	7,00	6,80	1,00
6,99	7,50	7,30	1,00
7,00	7,50	7,30	1,00
7,50	8,10	7,80	1,00
8,00	8,50	8,30	1,00
8,40	9,00	8,70	1,00
9,00	9,60	9,30	1,50
9,50	10,10	9,85	1,50
10,00	10,60	10,35	2,00
12,00	12,70	12,40	2,00

These values are provided for information purposes only. We recommend refining your design using our O'Ring calculator, which is available free in the "Tools" tab on the website.

Pneumatic axial movement sealing - Installation in a rectangular groove with O'Ring compression under pressure

Dynamic pneumatic sealing - Installation in a rectangular groove - With radial O'Ring compression under pressure - BECA 010

With often problematic lubrication conditions, correct O'Ring operation in linear motion can be achieved with a very reduced radial deformation.

For rod sealing (inside sealing), the dimension of the O'Ring should be selected so that the outside diameter of the O'Ring is 0.5% to 5% greater than the groove diameter Ød6.

For piston sealing (outside sealing), the dimension of the O'Ring should be selected so that the inside diameter Ød1 of the O'Ring is 0.5% to 5% smaller than the groove diameter Ød3.

The table below sets out the tightening values (min and max) according to the cross-section Ød2

Pneumatic dynamic seal tightening on an O'Ring

The table below sets out the design recommendations - Rectangular groove - Pneumatic sealing - Non-float-mounted fitting

Cross-section Ød2	Groove depth t 0/+0,05	Groove width L1 0/+0,20	Groove radius R1
0,50	0,30	1,20	0,20
0,74	0,53	1,30	0,20
1,00	1,60	1,55	0,20
1,02	0,75	1,60	0,20
1,20	0,90	1,80	0,20
1,25	0,93	1,85	0,20
1,27	0,95	1,85	0,20
1,30	0,98	1,90	0,20
1,42	1,08	2,10	0,30
1,50	1,15	2,20	0,30
1,52	1,18	2,20	0,30
1,53	1,18	2,20	0,30
1,60	1,23	2,30	0,30
1,63	1,25	2,40	0,30
1,78	1,40	2,50	0,30
1,80	1,43	2,50	0,30
1,83	1,45	2,50	0,30
1,90	1,53	2,60	0,30
1,98	1,60	2,70	0,30
2,00	1,60	2,70	0,30
2,08	1,70	2,70	0,30
2,10	1,70	2,70	0,30
2,20	1,80	2,80	0,30
2,21	1,80	2,80	0,30
2,30	1,85	3,00	0,30
2,34	1,90	3,00	0,30
2,40	1,95	3,10	0,30
2,46	2,00	3,20	0,30
2,50	2,05	3,20	0,30
2,62	2,15	3,30	0,30
2,65	2,20	3,30	0,30
2,70	2,25	3,50	0,30
2,80	2,35	3,90	0,60
2,92	2,45	4,00	0,60
2,95	2,50	4,00	0,60
3,00	2,55	4,10	0,60
3,10	2,60	4,20	0,60
3,15	2,65	4,20	0,60
3,50	2,95	4,60	0,60
3,53	3,00	4,60	0,60
3,55	3,00	4,60	0,60
3,60	3,05	4,70	0,60
4,00	3,45	5,10	0,60
4,50	3,85	5,60	0,60
5,00	4,30	6,30	0,60
5,30	4,55	6,50	0,60
5,33	4,55	6,50	0,60
5,50	4,80	6,60	0,60
5,70	5,00	6,80	0,60
6,00	5,25	7,10	0,60
6,50	5,65	8,20	1,00
6,99	6,10	8,80	1,00
7,00	6,10	8,80	1,00
7,50	6,65	9,10	1,00
8,00	7,10	9,60	1,00
8,40	7,40	10,10	1,00
9,00	7,90	11,90	1,50
9,50	8,40	12,30	1,50
10,00	8,90	14,30	2,00
12,00	10,70	16,30	2,00

These values are provided for information purposes only. We recommend refining your design using our O'Ring calculator, which is available free in the "Tools" tab on the website.

Extrusion gap - Pressure - Hardness

Against the extrusion of O'Rings under significant pressures, it's best to use back-up rings, BECA 008, BECA 008 P, BECA 011 and BECA 012, and O'Rings with a hardness of 70 Shore A, in line with the following parameters:

- Pressures above 5.0 MPa for diameters Ød1 > 50,00 mm
- Pressures above 10.0 MPa for diameters Ød1 ≤ 50,00 mm

However, this is not always possible if there is a lack of space in the housing. In this case, the tolerances of the mechanical parts must be adapted depending on the cross-section and the O'Ring hardness. It is important to scrupulously observe the extrusion gaps to prevent any O'Ring creep, which would lead to its complete destruction.

Principle of extrusion gap for O'Ring - BECA 010

Cross-section Ød2	< 2,00	2,00 - 3,00	3,00 - 5,00	5,00 - 7,00	> 7,00

Hardness of 70 Shore A
Pressure	Radial extrusion gap
≤ 3,50	0,08	0,09	0,10	0,13	0,15
≤ 7,00	0,05	0,07	0,09	0,09	0,10
≤ 10,50	0,03	0,04	0,07	0,07	0,08

Hardness of 80 Shore A
Pressure	Radial extrusion gap
≤ 3,50	0,10	0,13	0,15	0,18	0,20
≤ 7,00	0,07	0,09	0,10	0,13	0,15
≤ 10,50	0,05	0,07	0,08	0,09	0,10
≤ 14,00	0,03	0,04	0,05	0,07	0,08
≤ 17,50	0,02	0,03	0,03	0,04	0,04

Hardness of 90 Shore A
Pressure	Radial extrusion gap
≤ 3,50	0,13	0,15	0,18	0,20	0,23
≤ 7,00	0,10	0,13	0,15	0,18	0,20
≤ 10,50	0,07	0,09	0,10	0,13	0,15
≤ 14,00	0,05	0,07	0,08	0,09	0,10
≤ 17,50	0,04	0,05	0,07	0,08	0,09
≤ 21,00	0,03	0,04	0,05	0,07	0,08
≤ 35,00	0,02	0,03	0,03	0,04	0,04

Surface roughness

To make the tubes and rods, we recommend using non-porous steel or cast iron. For dynamic applications, brass and untreated stainless steel, as well as aluminium, are not as hard and are therefore not recommended, as they would be subjected to a lot of wear.

The roughness means that the sealing must be of a high quality. The surface roughness of grooves improves during alternating pressures.

Type of application	Type of surface	Roughness Ra	Roughness Rz	Roughness Rmax
Radial - Static	Under non-pulsating pressure
	Mating surface (rod and cylinder)	1,6 µm	6,3 µm	10,0 µm
	Groove diameter and groove flanks	1,6 µm	6,3 µm	10,0 µm
	Under pulsating pressure
	Mating surface (rod and cylinder)	0,8 µm	3,2 µm	5,0 µm
	Groove diameter and groove flanks	1,6 µm	6,3 µm	10,0 µm
Radial - Dynamic	Mating surface (rod and cylinder)	0,4 µm	1,6 µm	2,5 µm
Radial - Dynamic	Groove diameter and groove flanks	0,8 µm	3,2 µm	5,0 µm
Axial - Static	Clamping surface	1,6 µm	6,3 µm	10,0 µm
Axial - Static	Groove flanks	1,6 µm	6,3 µm	10,0 µm

Chamfers and radius

Given that the O'Rings are fitted pre-tightened, the chamfer lengths and rounded cutting edges must fit with the table below.

Cross-section Ød2	Radius R1	Max radius R2	Chamfer C
Cross-section Ød2	Radius R1	Max radius R2	15°	20°
1,78 - 1,80	0,30	0,20	2,50	2,00
2,62 - 2,65	0,30	0,20	3,00	2,50
3,53 - 3,55	0,60	0,20	3,50	3,00
5,33 - 5,30	0,60	0,20	4,00	3,50
6,99 - 7,00	1,00	0,20	5,00	4,00
8,40	1,00	0,20	6,00	4,50

Quality criteria

The table below sets out the maximum limits for O'Ring appearance defects, in line with standard ISO 3601-3.

Type of surface defect	Schematic presentation	Dimension limits	Maximum limits for defects on the cross-section Ød2
Type of surface defect	Schematic presentation	Dimension limits	> 0,80 ≤ 2,25	> 2,25 ≤ 3,15	> 3,15 ≤ 4,50	> 4,50 ≤ 6,30	> 6,30 ≤ 8,40
Offset		e	0,08	0,10	0,13	0,15	0,15
Flash		x	0,10	0,12	0,4	0,16	0,18
		y	0,10	0,12	0,4	0,16	0,18
		a	When the flash can be differentiated, it must not be greater than 0,07 mm.
Backrind		g	0,18	0,27	0,36	0,53	0,70
Backrind		u	0,08	0,08	0,10	0,10	0,13
Area of excessive trimming (radial tool marks not allowed)		n	Trimming is allowed if the dimensionn is not less than the minimum diameter d2 of the O'Ring
Filling mark (folds must not be radial)		v	1,50 a	1,50 a	6,50 a	6,50 a	6,50 a
Filling mark (folds must not be radial)		k	0,08	0,08	0,08	0,08	0,08
Lack of material and tearing (including O'Ring tearing)		w	0,60	0,80	1,00	1,30	1,70
Lack of material and tearing (including O'Ring tearing)		t	0,08	0,08	0,10	0,10	0,13
a: or 0.05 times the inside diameter of the O'Ring d1, taking the largest of the two values.

Assembly recommendations

Several essential rules must be followed before fitting the O'Rings:

Check that the mechanical parts (rod and bore parts) have a chamfer length that is in line with our recommendations,
Remove the flash and chamfer or round off the sharp edges and holes; cover the threaded parts,
Remove the machining shavings and all impurities and other foreign bodies. Thoroughly clean all of the mechanical parts,
Grease or oil the O'Ring and mechanical parts to make it easier to fit. For this purpose, ensure upstream that the lubricants are compatible with the O'Ring materials. Avoid greases containing solid additives (molybdenum disulfide or zinc sulfide),
If using installation tools, check that they are clean and do not have sharp edges.

Piston installation with O'Rings

Recommendations for mounting O'Rings in pistons

Rod installation with O'Rings

Recommendations for mounting O'Rings in rods

O'Rings installation with transverse holes

Recommendations for mounting O'Rings with transverse holes

O'Rings installation with threaded parts

Recommendations for mounting O'Rings with threads

4018 dimensions found

010.1BV95 Standard request	251,00	4,00	-	-	-	-	-	-	-	-	-
010.1BX63 Standard request	251,00	5,00	-	-	-	-	-	-	-	-	-
010.1BO44 Standard request	252,00	3,50	-	-	-	-	-	-	-	-	-
010.1BV69 Standard request	252,00	4,00	-	-	-	-	-	-	-	-	-
010.1B09A Standard request	252,00	5,00	-	-	-	-	-	-	-	-	-
010.1BP19 Standard request	253,00	3,50	-	-	-	-	-	-	-	-	-
010.1BV68 Standard request	253,00	4,00	-	-	-	-	-	-	-	-	-
010.1B10A Standard request	253,00	5,00	-	-	-	-	-	-	-	-	-
010.1A612 Standard request	253,37	5,33	377	x	x	-	-	-	-	-	-
010.1A779 Standard request	253,37	6,99	449	-	x	-	-	-	-	-	-
010.25369 Standard request	253,57	6,99	449	x	-	-	-	R77	-	-	-
010.1A455 Standard request	253,59	3,53	274	x	x	-	-	-	-	-	-
010.1BP22 Standard request	254,00	3,50	-	-	-	-	-	-	-	-	-
010.1BV97 Standard request	254,00	4,00	-	-	-	-	-	-	-	-	-
010.1B12A Standard request	254,00	5,00	-	-	-	-	-	-	-	-	-
010.25453 Standard request	254,00	5,30	-	-	-	x	D2540GN	-	-	-	-
010.25407 Standard request	254,00	7,00	-	-	-	x	D2540GN	-	-	-	-
010.25484 Standard request	254,50	8,40	-	-	-	-	-	-	P255	-	-
010.1BO26 Standard request	255,00	3,50	-	-	-	-	-	-	-	-	-
010.1BV71 Standard request	255,00	4,00	-	-	-	-	-	-	-	-	-
010.1A516 Standard request	255,00	5,00	-	-	-	-	-	-	-	-	-
010.1BP23 Standard request	256,00	3,50	-	-	-	-	-	-	-	-	-
010.1BV72 Standard request	256,00	4,00	-	-	-	-	-	-	-	-	-
010.1B13A Standard request	256,00	5,00	-	-	-	-	-	-	-	-	-
010.1BP25 Standard request	257,00	3,50	-	-	-	-	-	-	-	-	-
010.1BZ01 Standard request	257,00	4,00	-	-	-	-	-	-	-	-	-
010.1B18A Standard request	257,00	5,00	-	-	-	-	-	-	-	-	-
010.1BP26 Standard request	258,00	3,50	-	-	-	-	-	-	-	-	-
010.25835 Standard request	258,00	3,55	-	-	-	-	D2580GN	-	-	-	-
010.1BZ03 Standard request	258,00	4,00	-	-	-	-	-	-	-	-	-
010.1BX65 Standard request	258,00	5,00	-	-	-	-	-	-	-	-	-
010.25853 Standard request	258,00	5,30	-	-	-	x	E2580GN	-	-	-	-
010.1B95H Standard request	258,00	6,00	-	-	-	-	-	-	-	-	-
010.1B75L Standard request	258,00	7,00	-	-	-	x	E2580GN	-	-	-	-
010.1BP28 Standard request	259,00	3,50	-	-	-	-	-	-	-	-	-
010.1BZ07 Standard request	259,00	4,00	-	-	-	-	-	-	-	-	-
010.1B21A Standard request	259,00	5,00	-	-	-	-	-	-	-	-	-
010.1B96H Standard request	259,00	6,00	-	-	-	-	-	-	-	-	-
010.1A702 Standard request	259,30	5,70	-	-	-	-	-	-	G260	x	x
010.25984 Standard request	259,50	8,40	-	-	-	-	-	-	P260	-	-
010.1A780 Standard request	259,70	6,99	-	-	-	-	-	-	-	-	-
010.1BO39 Standard request	260,00	3,50	-	-	-	-	-	-	-	-	-
010.1BV75 Standard request	260,00	4,00	-	-	-	-	-	-	-	-	-
010.1A517 Standard request	260,00	5,00	-	-	-	-	-	-	-	-	-
010.1B99H Standard request	260,00	6,00	-	-	-	-	-	-	-	-	-
010.1BP29 Standard request	261,00	3,50	-	-	-	-	-	-	-	-	-
010.1BZ09 Standard request	261,00	4,00	-	-	-	-	-	-	-	-	-
010.1B22A Standard request	261,00	5,00	-	-	-	-	-	-	-	-	-
010.26153 Standard request	261,00	5,30	-	-	-	x	E2610GN	-	-	-	-
010.26107 Standard request	261,00	7,00	-	-	-	x	E2610GN	-	-	-	-
010.1BO45 Standard request	262,00	3,50	-	-	-	-	-	-	-	-	-
010.1BZ13 Standard request	262,00	4,00	-	-	-	-	-	-	-	-	-
010.1BX67 Standard request	262,00	5,00	-	-	-	-	-	-	-	-	-
010.1B04I Standard request	262,00	6,00	-	-	-	-	-	-	-	-	-
010.1BP31 Standard request	263,00	3,50	-	-	-	-	-	-	-	-	-
010.1BZ15 Standard request	263,00	4,00	-	-	-	-	-	-	-	-	-
010.1B24A Standard request	263,00	5,00	-	-	-	-	-	-	-	-	-
010.1BP32 Standard request	264,00	3,50	-	-	-	-	-	-	-	-	-
010.1BZ16 Standard request	264,00	4,00	-	-	-	-	-	-	-	-	-
010.1B25A Standard request	264,00	5,00	-	-	-	-	-	-	-	-	-
010.26484 Standard request	264,50	8,40	-	-	-	-	-	-	P265	-	-
010.1BO38 Standard request	265,00	3,50	-	-	-	-	-	-	-	-	-
010.26535 Standard request	265,00	3,55	-	-	-	-	E2650GN	-	-	-	-
010.1BZ18 Standard request	265,00	4,00	-	-	-	-	-	-	-	-	-
010.1A518 Standard request	265,00	5,00	-	-	-	-	-	-	-	-	-
010.26553 Standard request	265,00	5,30	-	-	-	x	E2650GN	-	-	-	-
010.1B05I Standard request	265,00	6,00	-	-	-	-	-	-	-	-	-
010.1B78L Standard request	265,00	7,00	-	-	-	x	E2650GN	-	-	-	-
010.1BO19 Standard request	266,00	3,50	-	-	-	-	-	-	-	-	-
010.1BV78 Standard request	266,00	4,00	-	-	-	-	-	-	-	-	-
010.1B27A Standard request	266,00	5,00	-	-	-	-	-	-	-	-	-
010.1B07I Standard request	266,00	6,00	-	-	-	-	-	-	-	-	-
010.1A613 Standard request	266,07	5,33	378	x	x	-	-	-	-	-	-
010.1A781 Standard request	266,07	6,99	450	x	x	-	-	R78	-	-	-
010.1A456 Standard request	266,29	3,53	275	x	x	-	-	-	-	-	-
010.1BP34 Standard request	267,00	3,50	-	-	-	-	-	-	-	-	-
010.1BZ21 Standard request	267,00	4,00	-	-	-	-	-	-	-	-	-
010.1BJ95 Standard request	267,00	4,50	-	-	-	-	-	-	-	-	-
010.1B28A Standard request	267,00	5,00	-	-	-	-	-	-	-	-	-
010.1BO32 Standard request	268,00	3,50	-	-	-	-	-	-	-	-	-
010.1BZ22 Standard request	268,00	4,00	-	-	-	-	-	-	-	-	-
010.1B30A Standard request	268,00	5,00	-	-	-	-	-	-	-	-	-
010.26853 Standard request	268,00	5,30	-	-	-	x	E2680GN	-	-	-	-
010.26807 Standard request	268,00	7,00	-	-	-	x	E2680GN	-	-	-	-
010.1BP35 Standard request	269,00	3,50	-	-	-	-	-	-	-	-	-
010.1BZ25 Standard request	269,00	4,00	-	-	-	-	-	-	-	-	-
010.1B31A Standard request	269,00	5,00	-	-	-	-	-	-	-	-	-
010.1A703 Standard request	269,30	5,70	-	-	-	-	-	-	G270	x	x
010.26984 Standard request	269,50	8,40	-	-	-	-	-	-	P270	-	-
010.1BO27 Standard request	270,00	3,50	-	-	-	-	-	-	-	-	-
010.1BV81 Standard request	270,00	4,00	-	-	-	-	-	-	-	-	-
010.1A519 Standard request	270,00	5,00	-	-	-	-	-	-	-	-	-
010.1B08I Standard request	270,00	6,00	-	-	-	-	-	-	-	-	-
010.1BP38 Standard request	271,00	3,50	-	-	-	-	-	-	-	-	-
010.1BZ27 Standard request	271,00	4,00	-	-	-	-	-	-	-	-	-
010.1BX73 Standard request	271,00	5,00	-	-	-	-	-	-	-	-	-
010.1BP40 Standard request	272,00	3,50	-	-	-	-	-	-	-	-	-
010.27235 Standard request	272,00	3,55	-	-	-	-	E2720GN	-	-	-	-
010.1BZ28 Standard request	272,00	4,00	-	-	-	-	-	-	-	-	-
010.1BX71 Standard request	272,00	5,00	-	-	-	-	-	-	-	-	-