Stainless steel A2 and A4. A4 stainless steel bolts

Stainless steel is the most widely used material from which equipment for the production, storage and transportation of food products is made. This is due to the high requirements that it must meet in terms of hygiene, toxicity, etc.
Wine production environments are highly corrosive to carbon steels. The aggressiveness of various wines is determined by the content of sugars, organic acids, sulfurous anhydride and alcohol. These figures vary significantly depending on the type of wine. Thus, table (dry) wines do not contain sugars, but only 9-14% vol. alcohol, fortified wines contain 8 - 10% vol. Sugars and 16 - 20% vol. alcohol, sweet dessert wines - 8-20% vol. Sugars and more than 13% vol. alcohol, semi-sweet table wines - 3 - 7% vol. Sugars and 7 - 12% vol. alcohol. The mass concentration of titratable acids is in the required GOST range (3-8 g / dm3). Sulfurous anhydride is traditionally used in wort clarification. Permissible concentration (MPC) of sulfurous anhydride in wines, as a rule, is not more than 150 - 400 mg / l.

In alcohol and alcoholic beverage industries, technological media are corrosive. They may contain unfermented sugar, organic acids, esters, fusel oils, aldehydes, etc. These media include mash (grain, molasses, cane), rectified alcohol, raw alcohol, vinasse, as well as vodka, various liqueurs , tinctures and low alcohol drinks.

CHARACTERISTICS OF ALLOYS AND THEIR APPLICATION

The characteristics of various stainless steel alloys are given in table. 1 and 2.

Some Russian suppliers persistently convince consumers that pipes made of AISI 430 (12X17) steel can also be used in pipelines for the food industry. This is incorrect, since clause 4 of DIN 11850 ("Materials") unambiguously indicates that in the food industry only the following steels can be used as standard: AISI 304 (1.4301), AISI 304L (1.4307), AISI 316L (1.4404).

Austenitic stainless steels(non-magnetic steels with the main components: 15-20% chromium and 5-15% nickel, which increases corrosion resistance; they are well heat treated and welded, indicated by the initial letter A).
This group of stainless steels is the most widely used and includes grades 304 and 316. These materials are ideal for use in food processing, milk, wine and distillery, brewing, pharmaceutical, chemical and petrochemical industries. 304 stainless steels contain about 18% chromium and 10% nickel and exhibit excellent corrosion resistance. Where particularly high corrosion resistance is required under extreme conditions, especially where chlorides are present, grade 316 steels are used containing about 17% chromium, 12% nickel and 2.2% molybdenum. Steel 12X18H10T is acid-resistant, not subject to intercrystalline corrosion, heat-resistant up to 600 ° C. It is used to make equipment for milk processing, cans, flasks, fermentation vats, barrels, storage equipment for wine-making and distillery enterprises, as well as utensils for cooking and equipment for kitchens and canneries.
Unlike other stainless steels, austenitic grades are non-magnetic, and as a result, magnetic particles do not adhere to the walls of the system, which could otherwise cause clogging.
Ferritic stainless steels(much softer than martensitic, due to the low carbon content; also have magnetic properties, denoted by the initial letter F).
Ferritic stainless steels are less corrosion resistant than 304 and 316 austenitic grades and are used where requirements are less demanding. Ferritic steels contain 11.5-16.5% chromium and less than 0.5% nickel. Steels in this group are magnetic and will cause adhesion of magnetic particles, which can lead to contamination problems. Ferritic steels are unsuitable for the manufacture of drainage products.
Martensitic stainless steels(much harder than austenitic steels and can be magnetic; more susceptible to corrosion, indicated by an initial C).
Martensitic steels are magnetic and are characterized by the highest strength in the group of stainless steels, while at the same time they have the least resistance to corrosion. They can be heat-hardened and are mainly used for the manufacture of knife tools.
The types of steels of the most common - austenitic - group are indicated by an additional number, which indicates chemical composition and applicability within this group:
... A1- are used, as a rule, in mechanical and movable assemblies. Due to the high sulfur content, steels of this type are less able to resist corrosion than other types;
... A2- non-toxic, non-magnetic, non-hardening, corrosion-resistant steels. Easily weldable and non-brittle. Can exhibit magnetic properties as a result of mechanical processing (washers and some types of screws). This is the most common group of stainless steels. Fasteners and products made of A2 steels are not suitable for use in acids and environments containing chlorine (for example, in swimming pools and salt water). They are suitable for temperatures down to -200 ° C. The closest analogues are AISI 304 and AISI 304L with even lower carbon content;
... A3- similar in properties to A2 steels and additionally stabilized with titanium, niobium or tantalum. This increases their resistance to corrosion when high temperatures;
... A4- similar to steel A2, but with the addition of 2 - 3% molybdenum. This makes them much more capable of resisting corrosion and acid attack. Fasteners and rigging from A4 are recommended for use in shipbuilding. Suitable for temperatures down to -60 ° C. The closest analogues are AISI 316 and AISI 316L with low carbon content;
... A5- has the properties of A4 steels and is additionally stabilized with titanium, niobium or tantalum, like A3, but with a different content of alloying additives. This also increases its resistance to high temperatures.

The choice of stainless steel grade for each application is a very important factor. It should be remembered that even stainless steels of grades 316 are not protected from all types of chemical attack, for example from use with reducing solutions such as hydrochloric and oxalic acids, especially in a concentrated and / or heated state.

"Distillery and winemaking" No. 10 (106), October 2008
A. S. Boguslavsky

Austenitic steels contain 15-26% chromium and 5-25% nickel, which increase corrosion resistance and are practically non-magnetic.

It is the austenitic chromium-nickel steels that exhibit a particularly good combination of machinability, mechanical properties and corrosion resistance. This group of steels is most widely used in industry and in the production of fasteners.

Austenitic steels are designated by an initial letter "A" with an additional number that indicates the chemical composition and applicability within this group:

From stock we supply products from the following steels:

Steel group	Material number	Short designation	AISI number
	Austenitic structure
A1	1.4305	X 10 CrNiS 18-9	AISI 303
A2	1.4301 1.4303	X 5 CrNi 18-10 X 4 CrNi 18-12	AISI 304 AISI 305
A3	1.4541	X 6 CrNiTi 18-10	AISI 321
A4	1.4401 1.4404	X 5 CrNiMo 18-10 X 2 CrNiMo 18-10	AISI 316 AISI 316 L
A5	1.4571	X 6 CrNiMoTi 17-12-2	AISI 316 TI

Steel A2 (AISI 304 = 1.4301 = 08Х18Н10)- non-toxic, non-magnetic, non-hardened, corrosion-resistant steel. Easily weldable and does not become brittle. May show magnetic properties as a result of machining (washers and some types of screws). This is the most common group of stainless steels. The closest analogues are 08Х18Н10 GOST 5632, AISI 304 and AISI 304L (with a reduced carbon content).

Fasteners and products made of A2 steel are suitable for use in general construction work (for example, when installing ventilated facades, stained-glass structures made of aluminum), in the manufacture of fences, pumping equipment, instrumentation from stainless steel. steel for oil and gas, food, chemical industries, shipbuilding. Retains strength properties when heated up to 425oС, and at low temperatures up to -200oС.

Steel A4 (AISI 316 = 1.4401 = 10Х17Н13М2)- differs from steel A2 by the addition of 2-3% molybdenum. This greatly increases its ability to resist corrosion and acid attack. A4 steel has higher anti-magnetic characteristics and is absolutely non-magnetic. The closest analogues are 10Х17Н13М12 GOST 5632, AISI 316 and AISI 316L (with low carbon content).

Fasteners and rigging made of A4 steel are recommended for use in shipbuilding. Fasteners and products made of A4 steel are suitable for use in acids and chlorine-containing environments (such as swimming pools and salt water). It can be used at temperatures from -60 to 450 ° C.

Strength classes

All austenitic steels (from "A1" to "A5") are divided into three strength classes, regardless of grade. Steels in the annealed state have the lowest strength (strength class 50).

Since austenitic steels are not hardened by quenching, they have the greatest strength in the cold-worked state (strength classes 70 and 80). The most widely used steel fasteners are A2-70 and A4-80.

Steel group / Steel grade / Strength class

Basic mechanical properties of austenitic steels:

DIN type		A2		A4
ASTM type (AISI)		304	304L	316	316L
Specific gravity (g / cm)		7.95	7.95	7.95	7.95
Mechanical properties at room temperature (20 ° C)
Brinell hardness - HB	Annealed	130-150	125-145	130-185	120-170
Rockwell hardness - HRB / HRC		70-88	70-85	70-85	70-85
Tensile strength, N / mm 2		500-700	500-680	540-690	520-670
Tensile strength, N / mm2		195-340	175-300	205-410	195-370
Relative extension		65-50	65-50	60-40	60-40
Impact strength	KCUL (J / cm 2)	160	160	160	160
Impact strength	KVL (J / cm 2)	180	180	180	180
Mechanical properties when heated
Tensile yield strength, N / mm2	at 300 ° C	125	115	140	138
	at 400 ° C	97	98	125	115
	at 500 ° C	93	88	105	95

Basic mechanical properties of bolts made of A2 and A4 steels of various strength classes:

Steel group	steel grade	Strength class of steel	Diameter range, mm	Mechanical properties of bolts
Steel group	steel grade	Strength class of steel	Diameter range, mm	tensile strength Q min, H / mm 2	tensile yield strength Q min, H / mm 2	elongation at break min, mm
austinite	A2, A4	50	≤ M39	500	210	0.6 d
		70	≤ M24	700	450	0.4 d
		80	≤ M24	800	600	0.3 d

Approximate tightening torques and pre-tightening forces for stainless and acid-resistant steel screws - A2 / A4:

Thread	Strength class 70		Strength class 80
Thread		Tightening torque, Nm	Pre-tightening force, N	Tightening torque, Nm
M 5	3.000	3,5	4.750	4,7
M 6	6.200	6	6.700	8
M 8	12.200	16	13.700	22
M 10	16.300	32	22.000	43
M 12	24.200	56	32.000	75
M 16	45.000	135	60.000	180
M 20	71.000	455	140.000	605
M 30	191.000	1.050	255.000	1.400
Materials: A2 / A4 Friction coefficient: 0.12 tensile yield strength Rp: 0.2 - A2 / A4 - 70 = 450 N / mm 80 = 600 N / mm Values: M A - Table x 0.9 = M A - max.

Chemical composition of stainless steel:

Steel grade	Group	Chemical composition (wt%) 1) Aged from DIN EN ISO 3506
Steel grade	Group	C	Si	Mn	P	S	Cr	Mo	Ni	Cu	Note
Austenitic	A1	0,12	1	6,5	0,200	0,15 bis 0,35	16 bis 19	0,7	5 bis 10	1,75 bis 2,25	2), 3), 4)
	A2	0,10	1	2	0,050	0,03	15 bis 20	5)	8 before 19	4	6), 7), 8)
	A3	0,08	1	2	0,045	0,03	17 bis 19	5)	9 before 12	1	6), 8)
	A4	0,08	1	2	0,045	0,03	16 bis 18,5	2 bis 3	10,5 before 14	1	10), 8)
	A5	0,08	1	2	0,045	0,03	16 bis 18,5	2 bis 3	10,5 before 14	1	8), 10)

1) Maximum values unless otherwise specified.
2) Sulfur can be replaced with selenium.
3) If the mass fraction of nickel is below 8%, then the mass fraction of manganese must be at least 5%.
4) There is no minimum limit for the copper mass fraction if the nickel mass fraction is more than 8%.
5) Molybdenum is allowed at the discretion of the manufacturer. If for certain applications it is necessary to limit the molybdenum content, this should be indicated by the customer.
6) Molybdenum is also allowed at the discretion of the manufacturer.
7) If the mass fraction of chromium is below 17%, then the mass fraction of nickel must be at least 12%.
8) B austenitic steel with a mass fraction of carbon maximum 0.03% nitrogen must be maximum 0.22%
9) For stabilization, titanium must be ≤ 5xC up to a maximum of 0.8% and be labeled according to this table or niobium and / or tantalum ≤ 10xC up to a maximum of 1% and be labeled according to this table.

Austenitic chromium-nickel steels show a particularly good combination of machinability, mechanical properties and corrosion resistance. Therefore, they are recommended for many applications and are the most significant group of stainless steels. The most important property of this group of steels is high corrosion resistance, which increases with an increase in the content of alloying, especially chromium and molybdenum.

A4 stainless steel is almost identical to A2 stainless steel in terms of its low carbon content and the percentage of manganese, silicon, chromium and nickel. Stainless fasteners A4 have improved technological indicators due to the addition of 2-3 percent of molybdenum to the chemical composition of steel. A4 stainless steel is resistant to aggressive effects of salts, acids and sea water... It retains its strength characteristics at higher temperatures compared to A2 stainless steel. GOST 7805 bolts (analogs of DIN 931 bolts), GOST 5927 (DIN 934) nuts and GOST 11371 (DIN 125) flat washers made of A4 steel do not change their mechanical properties in the temperature range from minus 60 to plus 450 degrees Celsius. The high corrosion resistance of stainless steel is due to the thin, protective chromium oxide film that forms on contact with air. A4 bolts are completed with nuts and washers only from the same grade A4 steel. They are slightly more expensive than stainless A2 fasteners with similar strength and dimensions. However, for finished products made of stainless steel, which include fasteners from this section of the catalog, and which are operated in conditions of contact with aggressive media, it is strictly not recommended to use fasteners made of A2 steel instead of A4 bolts, washers and nuts. Analogs of A4 stainless steel are steel of the type 10X17H13M2, AISI 316 and steel AISI 316L, which contains a lower percentage of carbon than the previous grades.

A4 stainless steel is almost identical to A2 stainless steel in terms of its low carbon content and the percentage of manganese, silicon, chromium and nickel. Stainless fasteners A4 have improved technological indicators due to the addition of 2-3 percent of molybdenum to the chemical composition of steel. A4 stainless steel is resistant to the corrosive effects of salts, acids and sea water. It retains its strength characteristics at higher temperatures compared to A2 stainless steel. Bolts GOST 7805 (analogues of bolts of the standard DIN 931), nuts GOST 5927 ( DIN 934) and flat washers GOST 11371 ( DIN 125) made of A4 steel do not change their mechanical properties in the temperature range from minus 60 to plus 450 degrees Celsius. The high corrosion resistance of stainless steel is due to the thin, protective chromium oxide film that forms on contact with air. A4 bolts are completed with nuts and washers only from the same grade of A4 steel. They are slightly more expensive than stainless A2 fasteners with similar strength and dimensions. However, for finished products made of stainless steel, which include fasteners from this section of the catalog, and which are operated in conditions of contact with aggressive media, it is strictly not recommended to use fasteners made of A2 steel instead of A4 bolts, washers and nuts. Analogs of A4 stainless steel are steel of the type 10X17H13M2, AISI 316 and steel AISI 316L, which contains a lower percentage of carbon than the previous grades.

Fasteners of high accuracy class A from stainless steel A4, in addition to resistance to acidic environments, have such remarkable properties, like hygiene and no toxicity. In addition, austenitic steel of this grade is easily machined and polished. On polished products, the chromium oxide protective layer is restored much faster than on parts with mechanical defects. A4 stainless steel is non-magnetic and easy to weld due to its low carbon content and no additional coatings. Welding seams easy to clean and polish. Fasteners and hardware made of A4 steel, as well as A2 steel, cannot be painted with organic dyes.

The strength characteristics of A4 stainless steel fasteners have three values, equal to 50, 70 and 80 kgf / mm 2. Bolts and nuts made of austenitic stainless steel of the specified grade are marked with the manufacturer's trademark (stamp) applied to the fasteners and symbol tensile strength, which looks, for example, like this: A4-70 or A4-80.

The company "Mashkrepezh", one of the leading suppliers of fasteners, sells to its customers bolts, washers and nuts made of stainless steel A4 in large and small wholesale quantities. We offer to buy stainless steel fasteners in factory packaging weighing 5 kilograms (bolts and nuts) and 1 kilogram (washers).

Characteristics of steel 12x18n10t

Density	7630 kg / cubic meter
Appointment	parts working up to 600 ° C. Welded apparatus and vessels operating in dilute solutions of nitric, acetic, phosphoric acids, solutions of alkalis and salts and other parts operating under pressure at temperatures from -196 to +600 ° C, and in the presence of aggressive media up to +350 ° C; austenitic steel
Elastic modulus
Shear modulus
Weldability	Weldable without limits


Forging temperature	Beginning 1200, end 850. Sections up to 350 mm are cooled in air.
Chemical composition	Silicon: 0.8, Manganese: 2.0, Copper: 0.30, Nickel: 9.0-11.0, Sulfur: 0.020, Carbon: 0.12, Phosphorus: 0.035, Chromium: 17.0-19.0, Titanium: 0.6-0.8,

A2, A4 - Characteristics of stainless steel fasteners

Stainless steels A2, A4: structure, mechanical properties, chemical composition. Fasteners made of steel A2, A4 (stainless bolts, screws, nuts, washers, pins, etc.): mechanical properties, values of tightening torques and pre-tightening forces.

Austenitic steels contain 15-26% chromium and 5-25% nickel, which increase corrosion resistance and are practically non-magnetic.

Steels of the austenitic group are designated by the initial letter "A" with an additional number that indicates the chemical composition and applicability within this group:

Austenitic structure

Steel group	Material number	Short designation	AISI number

		X 5 CrNi 18-10 / X 4 CrNi 18-12	AISI 304 / AISI 305
		X 6 CrNiTi 18-10
		X 5 CrNiMo 18-10 / X 2 CrNiMo 18-10	AISI 316 / AISI 316 L
		X 6 CrNiMoTi 17-12-2

Strength classes

All austenitic steels (from "A1" to "A5") are divided into three strength classes, regardless of grade. Steels in the annealed state have the lowest strength (strength class 50).

Since austenitic steels are not hardened by quenching, they have the greatest strength in the cold-worked state (strength classes 70 and 80). The most widely used fasteners are A2-70 and A4-80 steels.

Basic mechanical properties of austenitic steels:


ASTM type (AISI)
Specific gravity (g / cm)
Mechanical properties at room temperature (20 ° C)
Brinell hardness - HB	Annealed
Rockwell hardness - HRB / HRC
Tensile strength, N / mm 2
Tensile strength, N / mm2
Relative extension
Impact strength	KCUL (J / cm 2)
Impact strength	KVL (J / cm 2)
Mechanical properties when heated
Tensile yield strength, N / mm2

Basic mechanical properties of bolts made of steel A2, A4different strength classes:

Chemical composition of stainless steel:

Steel grade	Group	Chemical composition (wt%) 1) Extract from DIN EN ISO 3506
Steel grade	Group						Note
Austenitic			0,15 bis 0,35			1,75 bis 2,25


				16 bis 18,5	10,5 before 14
				16 bis 18,5	10,5 before 14

1) Maximum values unless otherwise specified.
2) Sulfur can be replaced with selenium.
3) If the mass fraction of nickel is below 8%, then the mass fraction of manganese must be at least 5%.
4) There is no minimum limit for the copper mass fraction if the nickel mass fraction is more than 8%.
5) Molybdenum is allowed at the discretion of the manufacturer. If for certain applications it is necessary to limit the molybdenum content, this should be indicated by the customer.
6) Molybdenum is also allowed at the discretion of the manufacturer.
7) If the mass fraction of chromium is below 17%, then the mass fraction of nickel must be at least 12%.
8) In austenitic steels with a carbon mass fraction of max. 0.03%, the nitrogen must be max. 0.22%.
9) For stabilization, titanium ≤ 5xC must be present up to a maximum of 0.8% and be labeled according to this table or niobium and / or tantalum ≤ 10xC up to a maximum of 1% and be labeled according to this table.

High quality stainless steel hardware, mainly made of steels of grades A2 (analogue of steel 12X18H9 in accordance with GOST or AISI 304 in the USA) and A4 (analogue of steel 03X17H14M2 in accordance with GOST or AISI 316 in the USA) are most often generalized into one class of metal products.

Steel grade A2 - austenitic stainless steel. Corrosion resistant, non-magnetic and non-toxic. The stainless steel hardware made from it is recommended for use in general construction works.

Steel grade A4 - austenitic acid-resistant steel. It differs from the A2 steel grade by the addition of 2-3% molybdenum, which significantly increases its ability to resist corrosion and acids. A4 steel is completely non-magnetic. Fastener A4 is recommended for use in shipbuilding, food industry and is suitable for use in acids and environments containing chlorine.

Steel grades A2 and A4 have a number of important characteristics:

High degree of resistance to corrosion;
Strength;
Hygiene;
Long service life;
Aesthetically attractive and presentable appearance;
Resistance to high and low temperatures from -200 C to +600 C.

They are used in various industries:

Aviation;
Building;
Mechanical engineering;
Food industry:
Furniture manufacture;
Shipbuilding;
Automotive;
Khimprom;
Manufacturing of medical equipment, etc.

Stainless hardware has the following strength classes:

50 - soft;
70 - riveted;
80 - high strength.

Strength class in stainless hardware is indicated by a dash after the steel grade. For example: DIN 931 M12x40 A4-80 where
A4 - steel grade;
80 - strength class.

From the OPM warehouse you can purchase stainless steel hardware from A2, A4 steel grades:

Nuts:

Wing nut DIN 315 A.F

Low nut DIN 439 analogue of GOST 5916, 5929

Hex nut DIN 934 analogue of GOST 5915, 5927

Low self-locking nut DIN 985

Cap nut DIN 1587 analogue of GOST 11860

Self-tapping screw with countersunk head and cross recess DIN 7982 analogue of GOST 1145

Screw universal countersunk head and Pz slot

Rod and studs including,

Hairpin with a screwed end 1.25 d long analogue of GOST 22034, 22035

Threaded rod 1-2 meters DIN 976 (former DIN 975)

Other:

Traction rivets DIN 7337

Pins DIN 7

Cotter pin DIN 94 analogue of GOST 397

When selecting stainless steel hardware, use the table "Mechanical properties of connecting elements: austenitic steel grades"

table is being edited

Since chromium-nickel steels cannot be hardened, an increased yield strength is achieved only by work hardening under a cold forming press. Therefore, when selecting set screws, use the table