CN111077178B - High-flux spray quenching sample clamping device - Google Patents

Abstract

The invention discloses a high-flux spray quenching sample clamping device, which belongs to the field of metal material quenching cooling performance characterization and material processing

Fastening screw, bracket, sample holder, pointer and rotating shaft

The device can adjust the spraying and quenching angle between the end part of the test sample in the end quenching experiment and the injection water column, and the single time can be used for simultaneously testing a plurality of samples at most, compared with the traditional experiment method, the experiment efficiency is greatly improved, and in addition, the theoretical support is provided for optimizing the production process by simulating the working condition in the actual production process.

Description

High-flux spray quenching sample clamping device

Technical Field

The invention belongs to the field of metal material quenching cooling performance characterization and material processing, and particularly relates to a high-flux spray quenching sample clamping device.

Background

The high-throughput experiment of the material is to complete the preparation and characterization of batch samples in a short time, and the core idea is to change the sequential iteration in the traditional material research into parallel processing so as to improve the research and development efficiency of the material. Through development for many years, material high-throughput experimental equipment has made great progress, and can effectively improve the efficiency of material research and development and accelerate the screening and optimization of materials.

The heat treatment is one of the very important basic process technologies in the processing and manufacturing industry, the performance of the metal material is improved by improving the internal microstructure of the metal material, and the heat treatment plays an irreplaceable role in the aspects of fully playing the material potential, saving energy and the like. The heat treatment of the metal member generally includes four types of annealing, normalizing, quenching, and tempering. The mechanical properties of the metal material, such as strength, hardness, wear resistance and the like, can be improved through quenching and tempering (quenching and tempering), and the method is one of the most important means for heat treatment strengthening of metal components. The end quenching experiment is a measuring method for measuring a relation curve of hardness-distance to a water cold end along an axis direction after a metal material sample is heated and austenitized and one end surface of the metal material sample is sprayed with water and cooled. Because the Jominy end-quench method is simple and reliable, it is selected as a standard method by many countries to determine the hardenability and hardenability of steel. The existing quenching experiment clamping device can only load one sample at a time, the efficiency is low, and the problem that how to improve the efficiency of a quenching experiment becomes to be solved urgently is solved.

The quenching process has too high cooling speed, internal stress is easily generated in the workpiece, and the workpiece is deformed and even cracked when the internal stress is serious. In actual production, a cooling medium or a cooling method with a low cooling speed such as oil quenching and spray quenching is generally adopted to replace immersion quenching, so that deformation and internal stress of a workpiece are reduced as much as possible while a quenching structure is obtained. In the spray quenching process, technological parameters such as flow, spray angle and intermittent frequency of a cooling medium are key technological parameters influencing the quenching effect, but related experimental equipment is still lacked to characterize the hardenability and hardenability of a metal material under the spray quenching condition.

In patent CN204211770U "end quenching experimental device of steel hardenability", aiming at the problem that the clamping device of the existing spray quenching experiment can not fix the small-size sample, an end quenching experimental device for the small-size sample is provided, which is convenient to operate and accurate in test, but the device can only perform the experiment of a single sample at a time, and can only perform the axial hardenability experiment, and can not study other experiment influence factors such as the injection angle.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides the high-throughput spray quenching sample clamping device which can be applied to a spray quenching experiment simulation device and is used for simulating the factors influencing the quenching result of a spray quenching experiment, wherein the aim of controlling the spray quenching angle in the end quenching experiment can be achieved by controlling the deflection angle of the sample, the process conditions in the actual production process can be simulated, the number of samples in one experiment can be increased, and the experiment efficiency is improved. The invention is realized by the following technical scheme:

a high-flux spray quenching sample clamping device comprises a handle 1 and a rotating shaft

2. Fastening screw 3, support 4, sample seat 6, pointer 7 and rotating shaft

8. A dial 9, a support 10;

the handle 1 is arranged on the rotating shaft

2 one end of the bracket 4 is a hollow sleeve structure and a rotating shaft

The other end of the sample holder 2 penetrates through the bracket 4 and then is connected with one end of a sample holder 6, the other end of the sample holder 6 is connected with a rotating shaft II8, and the rotating shaft II8 is connected with a support 10 through a shaft; the sample seat 6 is provided with a plurality of sample holes 5;

the pointer 7 is arranged at one end of the sample holder 6 close to the support 10, and the dial plate 9 is arranged on the support 10;

the sleeve structure of the bracket 4 is provided with a hole communicated with the hollow structure, and the fastening screw 3 is arranged in the hole.

The top end of the sample hole 5 is designed to be a counter-bore structure, and the bottom end of the sample hole is designed to be a stepped hole structure.

The scale mark 0 of the dial plate 9 is on the same straight line with the central axis of the sample holder 6 and the pointer 7 when the dial plate is static, the deflection angle of the sample holder 6 is +/-15 degrees, and the minimum measurable range is 2.5 degrees.

The sample clamping device can be applied to a spray quenching experiment simulation device, wherein two sides of the support 4 and the support 10 are respectively provided with a support frame, the support frame is provided with bolt holes, the support frame can be matched with the support frame and the bolt holes on the spray quenching experiment simulation device, and the sample clamping device is fixed on the spray quenching experiment simulation device through bolt fixation, so that the purpose of loading quenching samples is achieved.

The sample clamping device can simulate the spray quenching angle in the spray quenching experiment process by adjusting the deflection angle of the sample holder 6, and after the experiment is finished, the sample is processed and detected according to GB/T225-2006. Through comparing the detection results, the influence of different spray quenching angles on the spray quenching experiment can be obtained.

The invention has the advantages that the injection angle of the sample holder can be adjusted, and the method is used for simulating the spray quenching angle in the actual production process and screening the optimal spray quenching angle; the central symmetry axis of the sample holder, the pointer and the dial are on the same straight line, and the deflection angle of the sample is reflected in real time; in addition, the design of a counter bore and a stepped hole is added in the sample hole, so that the sample is convenient to take, and the stability of placing the sample is ensured; the test sample seat is provided with a plurality of test sample holes, so that a plurality of test samples can be subjected to spray quenching at most at one time, the test efficiency is improved, and national standard samples and non-national standard samples can be placed at the same time; a large amount of data and optimal experimental conditions can be provided for optimizing the production process, the experimental period is shortened, and the experimental efficiency is improved.

Drawings

FIG. 1 is a schematic view of the structure of an apparatus according to example 1;

FIG. 2 is a top view of the apparatus of example 1;

FIG. 3 is a schematic dial of the device of embodiment 1;

in the figures, 1-handle 1; 2-rotating shaft

(ii) a 3-fastening screws; 4-a scaffold; 5-sample hole; 6-sample holder; 7-a pointer; 8-rotating shaft

(ii) a 9-dial plate; 10-support 10.

Detailed Description

The invention is further described with reference to the following figures and specific examples.

Example 1

A high-flux spray quenching sample card loading device is shown in figures 1, 2 and 3 and comprises a handle 1 and a rotating shaft

2. Fastening screw 3, support 4, sample hole 5, sample seat 6, pointer 7 and rotating shaft

8. A dial 9, a support 10;

the handle 1 is fixedly welded on the rotating shaft

2 one end of the bracket 4 is a hollow sleeve structure and a rotating shaft

2 the other end of the bracket 4 is fixedly connected with one end of a sample holder 6, the other end of the sample holder 6 is fixedly connected with a rotating shaft II8, and the rotating shaft II8 is connected with a supportThe seat 10 is connected with a shaft; the rotating shaft II8 can not drive the support 10 to move when rotating; the support 4 and the support 10 are respectively provided with a support frame at two sides, the support frame is provided with bolt holes which can be matched with the support and the bolt holes on the spray quenching experiment simulation device, and the sample clamping device is fixed on the spray quenching experiment simulation device through bolt fixation;

the pointer 7 is vertically arranged at one end of the sample holder 6 close to the support 10, the dial 9 is arranged on the support 10, the scale mark 0 of the dial 9 is on the same straight line with the central axis of the sample holder 6 and the pointer 7 when the sample holder is static, the pointer 7 deflects along with the sample holder 6, and the deflection angle of the sample holder 6 can be obtained through the deflection angle of the pointer 7 on the dial 9;

the sleeve structure of the support 4 is provided with a hole communicated with the hollow structure, the fastening screw 3 is arranged in the hole, and the bottom of the fastening screw 3 can be communicated with the rotating shaft

2, the side surfaces are contacted, the fastening screw 3 is screwed, and the rotating shaft can be arranged at the bottom of the fastening screw 3

2 pressing tightly for fixing and preventing rotation shaft

2 driving the sample holder 6 to rotate, otherwise, loosening the fastening screw 3 and rotating the shaft

2 can rotate freely; 4 sample holes 5 are arranged on the sample seat 6, the top end of each sample hole 5 is provided with a countersunk hole structure, the bottom end of each sample hole 5 is provided with a stepped hole structure, the deflection angle of the pointer 7 is +/-15 degrees, the scale disc 9 ranges from minus 15 degrees to plus 15 degrees, and the minimum measurable range is 2.5 degrees.

Example 2

In this embodiment, the use method of the high-throughput spray quenching sample card loading device in embodiment 1 is described by taking SA508-3 steel, 42CrMo steel, S34MnV steel and 5CrNiMoV steel as examples, and the specific steps are as follows:

the prepared material has the diameter of 25mm and the length of 100m according to the national standard GB/T225-2006Heating 4 samples of m SA508-3 steel, 42CrMo steel, S34MnV steel and 5CrNiMoV steel to 860 ℃, preserving heat for 30min, simultaneously taking out the 4 samples after heat preservation, unscrewing fastening screws 3, rotating a rotating shaft through a handle 1

2. Rotating shaft

8 drive the sample seat 6 to deflect to positive 10 degrees, tighten the fastening screw 3, and the bottom of the fastening screw 3 can make the rotating shaft

2 pressing tightly for fixing and preventing rotation shaft

2, rotating, fixing the sample holder 6, putting the sample into the sample hole 5 on the sample holder 6, performing spray quenching experiment for 40min, naturally cooling to room temperature after the spray quenching is finished, taking out the sample, adjusting the fastening screw 3, and loosening the rotating shaft

And 2, rotating the handle 1 to restore the sample holder 6 to the original position, processing and detecting the sample according to GB/T225-2006, and analyzing the result.

Example 3

In this example, a668 steel is taken as an example to illustrate a method for using the high-throughput spray quenching sample card loading device in example 1, and the specific steps are as follows:

preparing 4A 668 steel samples with the size of 25mm in diameter and 100mm in length according to the national standard GB/T225-2006, respectively heating the 4 samples to 860 ℃, 880 ℃, 900 ℃ and 920 ℃, preserving heat for 30min, simultaneously taking out the 4 samples after the heat preservation is finished, unscrewing the fastening screw 3, rotating the rotating shaft through the handle 1, and then screwing the rotating shaft into the sample holder

2. Rotating shaft

8 drive the test sample seat 6 to deflect to minus 15 degrees, the fastening screw 3 is screwed, and the rotating shaft can be driven by the bottom of the fastening screw 3

2 pressing tightly for fixing and preventing rotation shaft

2, rotating, fixing the sample holder 6, putting the sample into the sample hole 5 on the sample holder 6, performing spray quenching experiment for 40min, naturally cooling to room temperature after the spray quenching is finished, taking out the sample, adjusting the fastening screw 3, and loosening the rotating shaft

And 2, rotating the handle 1 to restore the sample holder 6 to the original position, processing and detecting the sample according to GB/T225-2006, and analyzing the result.

Claims (2)

1. The high-flux spray quenching sample clamping device is characterized in that a plurality of samples are detected according to GB/T225-2006, and the device comprises a handle (1) and a rotating shaft

(2) The device comprises a fastening screw (3), a bracket (4), a sample hole (5), a sample seat (6), a pointer (7) and a rotating shaft

(8) The dial scale (9) and the support (10);

the handle (1) is arranged on the rotating shaft

(2) One end of the bracket (4) is a hollow sleeve structure and a rotating shaft

(2) The other end of the sample holder penetrates through the bracket (4) and then is connected with one end of the sample holder (6), and the sample holder (6) is additionally provided withOne end of the rotating shaft II (8) is connected with the rotating shaft II (8), and the rotating shaft II (8) is connected with the support (10) through a shaft; a plurality of sample holes (5) are arranged on the sample seat (6);

the pointer (7) is arranged at one end of the sample holder (6) close to the support (10), and the dial (9) is arranged on the support (10);

the sleeve structure of the bracket (4) is provided with a hole communicated with the hollow structure, and the fastening screw (3) is arranged in the hole;

the sample hole (5) penetrates through the sample seat (6), the top end of the sample hole (5) is of a counter bore structure, and the bottom end of the sample hole is of a stepped hole structure;

support (4) and support (10) both sides are equipped with the support frame respectively, are equipped with the bolt hole on the support frame, mutually support with support and bolt hole on the experiment analogue means that quenches of spouting, through the bolt fastening, fix sample dress card device on the experiment analogue means that quenches of spouting, reach the purpose of loading the quenching sample.

2. The high-throughput spray quenching sample clamping device according to claim 1, wherein the scale mark 0 of the dial (9) is on the same straight line with the central axis and the pointer (7) of the sample holder (6) at rest.

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