CN107387567A - A kind of small jewel of high abrasion heating - Google Patents

Abstract

Generate heat small jewel present invention is disclosed a kind of high abrasion, is made up of the processing of tin, antimony, copper, barium, strontium, nickel, chromium, calcium, lead, zinc and beryllium, and parts by weight shared by the small each composition of jewel of the high abrasion heating are respectively：Described tin accounts for 24 31 parts, described antimony accounts for 8 15 parts, described copper accounts for 57 63 parts, and described barium accounts for 4 12 parts, and described strontium accounts for 3 11 parts, described nickel accounts for 10 17 parts, described chromium accounts for 15 22 parts, and described calcium accounts for 2 10 parts, and described lead accounts for 7 14 parts, described zinc accounts for 6 12 parts, and described beryllium accounts for 18 parts.The present invention has the characteristics of intensity is high, hardness is big, wearability is good, heating is small, load is big.

Description

A kind of small jewel of high abrasion heating

Technical field

Generate heat small jewel the present invention relates to a kind of high abrasion.

Background technology

It is the primary element for forming machinery that machine components, which are also known as mechanical organ, is that composition machinery and machine can not decouple Single product.For some Precision Machinery Elements used on some precision equipments, the product strength one produced in the prior art As, wearability reduction occurs under big load and high load conditions, heating becomes big, causes service life short.

The content of the invention

There is intensity height, the spy that hardness is big, wearability is good, heating is small, load is big it is an object of the invention to provide a kind of The high abrasion of point generates heat small jewel.

The small jewel the technical scheme is that a kind of high abrasion generates heat, by tin, antimony, copper, barium, strontium, nickel, chromium, Calcium, lead, zinc and beryllium processing composition, parts by weight shared by the small each composition of jewel of the high abrasion heating are respectively： Described tin accounts for 24-31 parts, and described antimony accounts for 8-15 parts, and described copper accounts for 57-63 parts, and described barium accounts for 4-12 parts, described Strontium accounts for 3-11 parts, and described nickel accounts for 10-17 parts, and described chromium accounts for 15-22 parts, and described calcium accounts for 2-10 parts, and described lead accounts for 7- 14 parts, described zinc accounts for 6-12 parts, and described beryllium accounts for 1-8 parts.

In a preferred embodiment of the present invention, parts by weight tool shared by the small each composition of jewel of the high abrasion heating Body is：Described tin accounts for 24 parts, and described antimony accounts for 8 parts, and described copper accounts for 57 parts, and described barium accounts for 4 parts, and described strontium accounts for 3 parts, Described nickel accounts for 10 parts, and described chromium accounts for 15 parts, and described calcium accounts for 2 parts, and described lead accounts for 7 parts, and described zinc accounts for 6 parts, described Beryllium account for 1 part.

In a preferred embodiment of the present invention, parts by weight tool shared by the small each composition of jewel of the high abrasion heating Body is：Described tin accounts for 25 parts, and described antimony accounts for 9 parts, and described copper accounts for 58 parts, and described barium accounts for 5 parts, and described strontium accounts for 4 parts, Described nickel accounts for 11 parts, and described chromium accounts for 16 parts, and described calcium accounts for 3 parts, and described lead accounts for 8 parts, and described zinc accounts for 7 parts, described Beryllium account for 2 parts.

In a preferred embodiment of the present invention, parts by weight tool shared by the small each composition of jewel of the high abrasion heating Body is：Described tin accounts for 27 parts, and described antimony accounts for 12 parts, and described copper accounts for 60 parts, and described barium accounts for 9 parts, and described strontium accounts for 8 Part, described nickel accounts for 15 parts, and described chromium accounts for 20 parts, and described calcium accounts for 8 parts, and described lead accounts for 12 parts, and described zinc accounts for 10 parts, Described beryllium accounts for 6 parts.

In a preferred embodiment of the present invention, parts by weight tool shared by the small each composition of jewel of the high abrasion heating Body is：Described tin accounts for 30 parts, and described antimony accounts for 14 parts, and described copper accounts for 62 parts, and described barium accounts for 11 parts, and described strontium accounts for 10 Part, described nickel accounts for 16 parts, and described chromium accounts for 21 parts, and described calcium accounts for 9 parts, and described lead accounts for 13 parts, and described zinc accounts for 11 parts, Described beryllium accounts for 7 parts.

In a preferred embodiment of the present invention, parts by weight tool shared by the small each composition of jewel of the high abrasion heating Body is：Described tin accounts for 31 parts, and described antimony accounts for 15 parts, and described copper accounts for 63 parts, and described barium accounts for 12 parts, and described strontium accounts for 11 Part, described nickel accounts for 17 parts, and described chromium accounts for 22 parts, and described calcium accounts for 10 parts, and described lead accounts for 14 parts, and described zinc accounts for 12 Part, described beryllium accounts for 8 parts.

The small jewel of the present invention that generated heat for a kind of high abrasion, the present invention is with intensity is high, hardness is big, wearability Well, generate heat the characteristics of small, load is big.

Embodiment

Presently preferred embodiments of the present invention is described in detail below so that advantages and features of the invention can be easier to by It will be appreciated by those skilled in the art that apparent clearly defined so as to be made to protection scope of the present invention.

The small jewel of the present invention that generated heat for a kind of high abrasion, by tin, antimony, copper, barium, strontium, nickel, chromium, calcium, lead, zinc And beryllium processing composition, parts by weight shared by the small each composition of jewel of the high abrasion heating are respectively：Described tin 24-31 parts are accounted for, described antimony accounts for 8-15 parts, and described copper accounts for 57-63 parts, and described barium accounts for 4-12 parts, and described strontium accounts for 3-11 Part, described nickel accounts for 10-17 parts, and described chromium accounts for 15-22 parts, and described calcium accounts for 2-10 parts, and described lead accounts for 7-14 parts, described Zinc account for 6-12 parts, described beryllium accounts for 1-8 parts.

Embodiment one

A kind of small jewel of high abrasion heating, group is processed by tin, antimony, copper, barium, strontium, nickel, chromium, calcium, lead, zinc and beryllium Into parts by weight shared by the small each composition of jewel of the high abrasion heating are specially：Described tin accounts for 24 parts, and described antimony accounts for 8 parts, described copper accounts for 57 parts, and described barium accounts for 4 parts, and described strontium accounts for 3 parts, and described nickel accounts for 10 parts, and described chromium accounts for 15 parts, Described calcium accounts for 2 parts, and described lead accounts for 7 parts, and described zinc accounts for 6 parts, and described beryllium accounts for 1 part.

Embodiment two

A kind of small jewel of high abrasion heating, group is processed by tin, antimony, copper, barium, strontium, nickel, chromium, calcium, lead, zinc and beryllium Into parts by weight shared by the small each composition of jewel of the high abrasion heating are specially：Described tin accounts for 25 parts, and described antimony accounts for 9 parts, described copper accounts for 58 parts, and described barium accounts for 5 parts, and described strontium accounts for 4 parts, and described nickel accounts for 11 parts, and described chromium accounts for 16 parts, Described calcium accounts for 3 parts, and described lead accounts for 8 parts, and described zinc accounts for 7 parts, and described beryllium accounts for 2 parts.

Embodiment three

A kind of small jewel of high abrasion heating, group is processed by tin, antimony, copper, barium, strontium, nickel, chromium, calcium, lead, zinc and beryllium Into parts by weight shared by the small each composition of jewel of the high abrasion heating are specially：Described tin accounts for 27 parts, and described antimony accounts for 12 parts, described copper accounts for 60 parts, and described barium accounts for 9 parts, and described strontium accounts for 8 parts, and described nickel accounts for 15 parts, and described chromium accounts for 20 Part, described calcium accounts for 8 parts, and described lead accounts for 12 parts, and described zinc accounts for 10 parts, and described beryllium accounts for 6 parts.

Example IV

A kind of small jewel of high abrasion heating, group is processed by tin, antimony, copper, barium, strontium, nickel, chromium, calcium, lead, zinc and beryllium Into parts by weight shared by the small each composition of jewel of the high abrasion heating are specially：Described tin accounts for 30 parts, and described antimony accounts for 14 parts, described copper accounts for 62 parts, and described barium accounts for 11 parts, and described strontium accounts for 10 parts, and described nickel accounts for 16 parts, and described chromium accounts for 21 Part, described calcium accounts for 9 parts, and described lead accounts for 13 parts, and described zinc accounts for 11 parts, and described beryllium accounts for 7 parts.

Embodiment five

A kind of small jewel of high abrasion heating, group is processed by tin, antimony, copper, barium, strontium, nickel, chromium, calcium, lead, zinc and beryllium Into parts by weight shared by the small each composition of jewel of the high abrasion heating are specially：Described tin accounts for 31 parts, and described antimony accounts for 15 parts, described copper accounts for 63 parts, and described barium accounts for 12 parts, and described strontium accounts for 11 parts, and described nickel accounts for 17 parts, and described chromium accounts for 22 Part, described calcium accounts for 10 parts, and described lead accounts for 14 parts, and described zinc accounts for 12 parts, and described beryllium accounts for 8 parts.

The small jewel of the present invention that generated heat for a kind of high abrasion, the present invention is with intensity is high, hardness is big, wearability Well, generate heat the characteristics of small, load is big.

The embodiment of the present invention is the foregoing is only, but protection scope of the present invention is not limited thereto, it is any Those skilled in the art disclosed herein technical scope in, can without the change that creative work is expected or Replace, should all be included within the scope of the present invention.Therefore, protection scope of the present invention should be limited with claims Fixed protection domain is defined.

Claims (6)

1. The small jewel 1. a kind of high abrasion generates heat, it is characterised in that：By tin, antimony, copper, barium, strontium, nickel, chromium, calcium, lead, zinc and Beryllium processing composition, parts by weight shared by the small each composition of jewel of the high abrasion heating are respectively：Described tin accounts for 24- 31 parts, described antimony accounts for 8-15 parts, and described copper accounts for 57-63 parts, and described barium accounts for 4-12 parts, and described strontium accounts for 3-11 parts, institute The nickel stated accounts for 10-17 parts, and described chromium accounts for 15-22 parts, and described calcium accounts for 2-10 parts, and described lead accounts for 7-14 parts, described zinc 6-12 parts are accounted for, described beryllium accounts for 1-8 parts.
2. The small jewel 2. high abrasion according to claim 1 generates heat, it is characterised in that：The small axle of the high abrasion heating Holding parts by weight shared by serving as a contrast each composition is specially：Described tin accounts for 24 parts, and described antimony accounts for 8 parts, and described copper accounts for 57 parts, described Barium account for 4 parts, described strontium accounts for 3 parts, and described nickel accounts for 10 parts, and described chromium accounts for 15 parts, and described calcium accounts for 2 parts, described lead 7 parts are accounted for, described zinc accounts for 6 parts, and described beryllium accounts for 1 part.
3. The small jewel 3. high abrasion according to claim 1 generates heat, it is characterised in that：The small axle of the high abrasion heating Holding parts by weight shared by serving as a contrast each composition is specially：Described tin accounts for 25 parts, and described antimony accounts for 9 parts, and described copper accounts for 58 parts, described Barium account for 5 parts, described strontium accounts for 4 parts, and described nickel accounts for 11 parts, and described chromium accounts for 16 parts, and described calcium accounts for 3 parts, described lead 8 parts are accounted for, described zinc accounts for 7 parts, and described beryllium accounts for 2 parts.
4. The small jewel 4. high abrasion according to claim 1 generates heat, it is characterised in that：The small axle of the high abrasion heating Holding parts by weight shared by serving as a contrast each composition is specially：Described tin accounts for 27 parts, and described antimony accounts for 12 parts, and described copper accounts for 60 parts, institute The barium stated accounts for 9 parts, and described strontium accounts for 8 parts, and described nickel accounts for 15 parts, and described chromium accounts for 20 parts, and described calcium accounts for 8 parts, described Lead accounts for 12 parts, and described zinc accounts for 10 parts, and described beryllium accounts for 6 parts.
5. The small jewel 5. high abrasion according to claim 1 generates heat, it is characterised in that：The small axle of the high abrasion heating Holding parts by weight shared by serving as a contrast each composition is specially：Described tin accounts for 30 parts, and described antimony accounts for 14 parts, and described copper accounts for 62 parts, institute The barium stated accounts for 11 parts, and described strontium accounts for 10 parts, and described nickel accounts for 16 parts, and described chromium accounts for 21 parts, and described calcium accounts for 9 parts, described Lead account for 13 parts, described zinc accounts for 11 parts, and described beryllium accounts for 7 parts.
6. The small jewel 6. high abrasion according to claim 1 generates heat, it is characterised in that：The small axle of the high abrasion heating Holding parts by weight shared by serving as a contrast each composition is specially：Described tin accounts for 31 parts, and described antimony accounts for 15 parts, and described copper accounts for 63 parts, institute The barium stated accounts for 12 parts, and described strontium accounts for 11 parts, and described nickel accounts for 17 parts, and described chromium accounts for 22 parts, and described calcium accounts for 10 parts, described Lead account for 14 parts, described zinc accounts for 12 parts, and described beryllium accounts for 8 parts.