Preparation method of titanium steel compound plate

A composite plate and titanium steel technology, applied in the field of metal processing, can solve the problems of unfavorable manufacturing of large-scale, thin-clad, and weldless titanium-steel composite panels, increased manufacturing costs, potential safety hazards of equipment, and non-combination of composite panels. , to achieve the effect of maintaining high quality level, good processing performance and high bonding strength

Inactive Publication Date: 2018-01-09
陕西海恩得工贸股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

For example, the expanded length of the mold cylinder for PTA with a diameter of Φ7,000mm reaches 21,980mm. If it is made of a titanium / steel composite plate with a length of less than 10,000mm, it will inevitably produce multiple welds, which will also increase the manufacturing cost and equipment. Security risks
[0004] The conventional production method of titanium / steel clad plates is direct explosive welding. Due to the limited size of thin titanium plates in the market, they need to be spliced. Defects such as multilayer cracking, local non-bonding, and interface melting will occur during explosive lamination. At the same time, these defects cannot be used. Ordinary welding methods for repair welding will directly lead to the scrapping of the entire composite panel due to partial unbonding, especially not conducive to the manufacture of large-scale, thin-clad, no-weld titanium-steel composite panels

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0032] Step 1. First, polish the titanium plate and the steel plate with a polishing impeller, place the steel plate horizontally, then place the titanium plate parallel to the surface of the steel plate, then place the ammonium ladder explosive evenly on the surface of the titanium plate, and finally use a detonator to detonate the titanium plate. The plate and the steel plate are welded together to obtain a titanium-steel composite material;

[0033] The detonation velocity of the explosive is 1.8×10 3 m / s, the intensity is 6mm, the density is 0.6g / cm -3 .

[0034] Step 2, using a hydraulic press to level the titanium-steel composite material obtained in step 1;

[0035] Step 3, heating the titanium-steel composite material obtained in step 2 in a resistance furnace at a temperature of 700°C and keeping it warm for 2 hours to obtain a composite billet;

[0036] Step 4, quickly put the composite billet obtained in step 3 into a rolling mill for rolling, and when the reduct...

Embodiment 2

[0040] Step 1. First, polish the titanium plate and the steel plate with a polishing impeller, place the steel plate horizontally, then place the titanium plate parallel to the surface of the steel plate, then place the ammonium ladder explosive evenly on the surface of the titanium plate, and finally use a detonator to detonate the titanium plate. The plate and the steel plate are welded together to obtain a titanium-steel composite material;

[0041] The detonation velocity of the explosive is 1.9×10 3 m / s, the intensity is 7mm, and the density is 0.65g / cm -3 .

[0042] Step 2, using a hydraulic press to level the titanium-steel composite material obtained in step 1;

[0043] Step 3, heating the titanium-steel composite material obtained in step 2 in a resistance furnace at a temperature of 720° C. and keeping it warm for 3 hours to obtain a composite billet;

[0044] Step 4, quickly put the composite billet obtained in step 3 into a rolling mill for rolling, and when the...

Embodiment 3

[0048] Step 1. First, polish the titanium plate and the steel plate with a polishing impeller, place the steel plate horizontally, then place the titanium plate parallel to the surface of the steel plate, then place the ammonium ladder explosive evenly on the surface of the titanium plate, and finally use a detonator to detonate the titanium plate. The plate and the steel plate are welded together to obtain a titanium-steel composite material;

[0049] Dynamite has a detonation velocity of 2.1×10 3 m / s, the intensity is 8mm, and the density is 0.7g / cm -3 .

[0050] Step 2, using a hydraulic press to level the titanium-steel composite material obtained in step 1;

[0051] Step 3, heating the titanium-steel composite material obtained in step 2 in a resistance furnace at a temperature of 800° C. and keeping it warm for 5 hours to obtain a composite billet;

[0052] Step 4, quickly put the composite billet obtained in step 3 into a rolling mill for rolling, and when the reductio...

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Abstract

The invention discloses a preparation method of a titanium steel compound plate. The preparation method comprises the following steps of: firstly performing explosive welding on a titanium plate and asteel plate; and then hot-rolling the titanium plate and the steel plate to obtain the titanium steel compound plate. By performing explosive welding on the titanium plate and the steel plate, the bonding strength of a rolled blank after explosive compounding is high, and during hot rolling, the titanium/steel compound plate blank is heated and the rolling deformation is controlled at 4-7 times,so that the rolled titanium/steel compound plate has relatively high bonding strength and guarantees the thickness demands the titanium and steel.

Description

technical field [0001] The invention belongs to the technical field of metal processing, and relates to a preparation method of a titanium-steel composite plate. Background technique [0002] Titanium has the characteristics of light weight, high specific strength, and corrosion resistance, while titanium / steel composite plates take into account the corrosion resistance of titanium and the high strength of steel plates, and the price is relatively low. They are widely used in petrochemical, electric power, hydrometallurgy, and caustic soda. and other industrial equipment and container manufacturing. [0003] With the continuous development of my country's economy, all kinds of equipment and containers are becoming larger and larger, which is reflected in the increasing length, diameter and area of ​​equipment or components. Therefore, the specifications and performance of the required titanium / steel composite plates Putting forward higher requirements, large-scale, thin clad...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B23P15/00
Inventor 孙敏孙子城
Owner 陕西海恩得工贸股份有限公司
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