Brass LS59-1: characteristics and composition of the alloy, GOST

Brass LO70-1 Brass LMtsA57-3-1 Brass LMtsAZhKS70-7-5-2-2-1 Brass LMtsZh57-1.5-0.75 Brass LMtsKA58-2-1-1 Brass LMtsKNS58-3-1.5-1 ,5-1 Brass LMtsKNSA58-3-1.5-1.5-1 Brass LMtsSKa58-2-2-1-1 Brass LMsh68-0.05 Brass LN65-5 Brass LNKMts49-10-0.3-0.2 Brass LNKoMts49-9-0.2-0.2 Brass LNMts60-9-5 Brass LO60-1 Brass LO62-1 Brass LKS65-1.5-3 Brass LO90-1 Brass LOK59-1-0.3 Brass LOMNA49-0 ,5-10-0.4-0.4 Brass LOMsh70-1-0.04 Brass LOMsh70-1-0.05 Brass LS58-2 Brass LS58-3 Brass LS59-1 Brass LS59-1V Brass LS59-2 Brass LS60 -1 Brass LS63-3 Brass LS64-2 Brass LS74-3 Brass LA85-0.5 Brass L59 Brass L60 Brass L63 Brass L66 Brass L68 Brass L70 Brass L72 Brass L75mk Brass L80 Brass L85 Brass L90 Brass L96 Brass LA77-2 La Tun LA77 -2u Brass LMts58-2 Brass LAZ60-1-1 (LAZH60-1-1L) Brass LAZHMtsS52-2-1-1.5-1 Brass LAMsh77-2-0.04 Brass LAMsh77-2-0.05 Brass LAN59- 3-2 Brass LANKMts 75-2-2.5-0.5-0.5 (alloy 156) Brass LAF94-0.5-0.15 Brass LZhMts59-1-1 Brass LZhS58-1-1 Brass LK62-0 .5 Brass LK75V Brass LKAN80-1-1.9-5.8 Brass LKANMTs75-2-2.5-0.5-0.5 Brass LKBO62-0.2-0.04-0.5

Standards

Areas of use

The wide range of applications of products made from LS59-1 brass is explained by such characteristics as:

• low cost;
• high hardness and strength;
• good machinability;
• wear resistance and corrosion resistance.

All this allows this alloy to be successfully used for manufacturing:

• elements of gear and worm connections;
• bushings and liners for various purposes;
• fastening elements;
• pipe products.

Chemical composition

Cu is the base. According to GOST 15527-2004, GOST 2060-2006, GOST 2208-2007, the sum of other elements must be ≤ 0.750%. The total mass fraction of tin and silicon should be no more than 0.50%. In brass, a mass fraction of nickel of up to 1.0% is allowed due to the mass fraction of copper, which is not taken into account in the sum of other impurities.

Corrosion resistance

Due to the presence of lead in the chemical composition of brass of the brand in question, a separate phase is formed in its internal structure, which has a positive effect not only on its workability, but also on its resistance to corrosion. Compared to other brass alloys, LS59-1 is more resistant to corrosion. Products made from such brass are not subject to cracking and oxidation when used in conditions of high humidity and temperature changes.

However, there is no need to talk about the exceptionally high corrosion resistance of LS59-1: in this parameter, this alloy is similar to brasses of other brands. In particular, it is not recommended to use it in cases where it will come into contact with products made of iron, aluminum and zinc. In addition, the corrosion resistance of LS59-1 will be poor when:

• simultaneous exposure to high humidity and high pressure;
• contact with fatty acids;
• operation in hydrogen sulfide environment;
• contact with ore waters and mineral acids;
• constant interaction with oxidized solutions and chlorides.

The characteristics of brass allow the metal to be used for the production of shut-off and connecting valves operated at temperatures above 100 degrees

LS59-1 demonstrates its corrosion resistance well under the following operating conditions:

• atmospheric air, including that saturated with sea salt vapor;
• dry steam;
• liquid medium characterized by a very low content of salts and acids;
• freon, alcohol solutions and antifreeze;
• salty sea water in a sedentary state.

It should be borne in mind that the interaction of LS59-1 brass with a gaseous or liquid medium characterized by a high content of ammonia, oxygen and carbon dioxide has a very negative effect on the corrosion resistance of the alloy.

Mechanical characteristics

Physical properties

The phase state of the LS59-1 alloy is determined by a small amount of substance in the b-phase, while lead is present as an independent phase, which explains its good machinability. This is the main property of lead brasses. High-speed processing of alloy workpieces occurs with little tool wear. During the process, small loose chips are formed, which ensures the cleanliness of the surface being processed and a slight hardening during cutting. Due to its good machinability, alloy LS59-1 is used for the production of small-sized parts for ultra-precision mechanics.

LS59-1 has low impact strength and low bending strength with an existing notch. The alloy is a good structural material even at low temperatures. Plasticity is maintained at lower temperatures down to helium temperatures. At average temperatures (200-600°C) the alloy exhibits the phenomenon of brittleness due to the multiphase structure of the material. Impact strength decreases with increasing temperature. The material may crack, so the alloy is not suitable for forging. Brass LS59-1 has good strength and corrosion resistance to various environments. The alloy has good anti-friction properties. It can be used in the production of small parts that are designed to operate under high friction (for example, plain bearings). The electrical and thermal conductivity of LS59-1 is less than that of copper.

The high hardness of the alloy and its abrasion resistance make it possible to use sheet blanks for the production of guide elements for various machine tools. In terms of tensile strength, LS59-1 brass is inferior to L63 alloy. The high hardness of cold-worked alloy sheets with good wear resistance determines their use for machine guides.

Assortment of brass LS59-1

The sizes and prices of LS59-1 brand products are constantly updated, so contact our managers to quickly and correctly place your order.

Other alloys from the category Pressure-processed brass

Dezincification of brass

Characteristics of dore alloy

Brass, in addition to general corrosion, is also subject to special types of corrosion: dezincification and “seasonal” cracking. Dezincification is a special form of corrosion in which the surface of the brass product is first dissolved in a reagent. The solution in which brass is dezincified contains more zinc than copper. As a result of exchange reactions in the cathode sections, copper is electrochemically deposited in the form of a spongy film. Brasses with a high zinc content (L60, L63) undergo dezincification faster, since in two-phase brasses there is a preferential dissolution of the β-phase, which is the anode, and the α-phase, the cathode. The dezincification process is observed when brass comes into contact with electrically conductive media (acidic and alkaline solutions). As a result, brass becomes porous, reddish spots appear on the surface, and mechanical properties deteriorate.

Other alloys from the category Pressure-processed brass

Bar

Brass rod We offer you to buy brass rod in a wide range. The properties of a brass rod depend on the production method, material and chemical composition. It can be made from any brand of brass, but the most widely used are pressed hard and semi-solid circles from inexpensive brass L63 and LS59-1, manufactured according to GOST 2060-2006 with a diameter of 5 to 160 mm. Applications Brass rods are widely used in the automotive, aerospace, watch, instrument, shipbuilding and life support systems industries. All kinds of fasteners, fittings, fittings, and parts of electrical devices are made from brass. Due to the good anti-corrosion properties, malleability, lightness and aesthetics of products made from various brass alloys, brass rods are sold in a wide range to satisfy the most highly specialized needs of a particular industry. Technical instructions • The production of brass rods from brass alloys of grades LS59-1, LO62-1, L63, LZhS58-1-1, LZhMts59-1-1, LMts58-2, LO62-1, LS63-3LAZH, 60-1-1 is regulated according to GOST standards. The main document regulating the production of square, round and hexagonal brass rods is GOST 2060-2006. • For other grades of alloys, various types of Technical Instructions are used

For the alloy LS58-2, for example, TU 48-21-5010-77 is taken into account, and for MtsSKA58-2-2-1-1 standardization takes place according to TU 48-21-356-74. In short, the range of different brass rods is extremely wide, and in this area there are constantly additions

Here you can find out prices for brass rods made of the alloy you are interested in, or buy brass rods of the class you need. Classification of brass rods Brass rods are manufactured using different technologies. They are: • Drawn • Pressed Brass products are distinguished by a wide selection of different sections: • Round • Square • Hexagonal • Rectangular Brass rods are made from alloys of different hardness: • Soft (annealed) • Semi-hard • Hard. They are distinguished: Brass rods for automatic processing. You can buy brass rods with antimagnetic properties. Marking Based on the presented classification, the marking corresponds to the following form: • Product name: Rod • Manufacturing technology: D – drawn and cold-deformed, G – pressed and hot-deformed. • Section shape: KV, KR, SHG, PR • Requirements for accuracy: normal accuracy - or N, P - increased, V - high. • Hardness: M, PT, T. • Diameter: indicated in mm. • Length with indication of dimension: unmeasured - ND, multiple of the size - KD, in a coil - BT. • Alloy: one of the above. • Scope of application: AB – automatic, AM – antimagnetic. Standard: GOST 52597-2006, GOST 2060-2006 or TU. The application can be sent by email or by phone;

LABELING, PACKAGING, TRANSPORTATION AND STORAGE

4.1. Rods with a diameter of up to 35 mm inclusive are tied into bundles weighing no more than 80 kg. Each bundle must consist of at least three rods and must be tied with two turns of wire with a diameter of at least 1.2 mm in accordance with GOST 3282 or other material according to regulatory and technical documentation in at least two places, and with a rod length exceeding 3 m in at least three places in such a way that mutual movement of the rods in the bundles is excluded, evenly along the length of the bundle.

The ends of the wire are connected by twisting at least five turns.

Drawn rods with a diameter of up to 12 mm inclusive are packaged in 1 - 2 layers in synthetic and non-woven materials that ensure the preservation of the quality of the rods, according to regulatory and technical documentation and tied over the packaging material with wire with a diameter of at least 1.2 mm in accordance with GOST 3282 in at least two places.

Cargo items must be formed into transport packages. Overall dimensions of packages - according to GOST 24597.

Bundles of bundles and individual rods not connected into bundles are carried out on pallets in accordance with GOST 9557 or without pallets using bars with a height of at least 50 mm and tied with wire with a diameter of at least 2 mm in two turns in accordance with GOST 3282 or with tape measuring at least 0.3 ´30 mm according to GOST 3560, or using bundled wire slings according to GOST 3282 with a diameter of at least 5 mm with a twist of at least three turns. The ends of the wire are connected by twisting at least five turns, the tapes are connected into a lock.

Packaging of rods intended for the Far North and hard-to-reach areas is carried out in accordance with the requirements of GOST 15846.

(Changed edition, Amendment No. 1, 3).

4.2. A metal or plywood label in accordance with GOST 14192 must be attached to each bundle of rods indicating: the trademark or name and trademark of the manufacturer, the symbol of the rods, the batch number, the designation of this standard, the technical control stamp.

On rods with a diameter of 25 - 35 mm, the alloy grade must be stamped, and on rods with a diameter over 35 mm, the alloy grade must be stamped and a technical control stamp must be applied.

4.3. Transportation of rods is carried out by all types of transport in covered vehicles in accordance with the rules for the transportation of goods in force for this type of transport.

It is allowed to transport rods tied into bundles weighing no more than 80 kg in standardized containers in accordance with GOST 20435 or in specialized containers in accordance with regulatory and technical documentation.

4.4. Transport marking of cargo packages is in accordance with GOST 14192 with the additional application of the handling sign “Keep away from moisture” and the inscription of the batch number in a place free from transport markings.

Transport marking is applied in any way provided for by GOST 14192.

4.5. Rods must be stored indoors, in conditions that exclude mechanical damage, exposure to moisture and active chemicals.

4.2 — 4.5. (Changed edition, Amendment No. 1).

4.6. During storage and transportation, rods must be protected from mechanical damage, moisture and active chemicals.

Assortment of brass LS59-1

The sizes and prices of LS59-1 brand products are constantly updated, so contact our managers to quickly and correctly place your order.