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Method for preventing and stopping crack of open right angle corner of ship metal structure trunk bulkhead

A metal structure and enclosure technology, applied in ship components, ship construction, ship design, etc., can solve the problems of reducing the actual stress value, difficult grinding, and difficulty in ensuring the final quality of ship products, etc.

Active Publication Date: 2018-03-30
HUDONG ZHONGHUA SHIPBUILDINGGROUP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] 1. Compared with the above-built cabin doors and other openings (generally ~700X1800), the Φ15 crack relief hole is still too small (radius 7.5, only 1% of the opening width, far less than 10% of the conventional requirement), although it has a certain effect, But it is still not enough to effectively prevent and stop cracking;
[0007] 2. Due to the inevitable error of the actual construction of the ship, and the inability to obtain the detailed structural diagram of the door frame of the channel equipment during design, etc., it is often difficult to realize the precise cutting of the door opening in the blanking stage: when blanking, it is necessary to leave a margin and only cut out for entry and exit For the process hole of the port, when the ship structure is basically assembled and welded in place, and when the cabin door is installed, the allowance shall be cut according to the actual situation.
At the same time, the small size of Φ15 often makes grinding difficult and the efficiency is extremely low;
[0008] 3. For the design of the crack relief hole, when the actual concentrated stress value is greater than the design allowable stress, there is no other effective strengthening method except for thickening the plate thickness at the corner of the opening
However, the increase of plate thickness has its certain limit (generally no more than 100% of the original plate thickness), and the small size of Φ15 often cannot greatly disperse and reduce the actual stress value
When increasing the thickness of the plate still cannot meet the strength requirements, the conventional crack arrest hole design has actually failed for crack prevention and crack arrest;
[0009] 4. The increase of plate thickness also increases the construction difficulty of the small-sized Φ15 crack arrest hole, which leads to the poor formation of the crack arrest hole, which further affects its crack prevention and crack arrest performance, etc.
[0010] All the phenomena described above can basically be attributed to the conventional crack arrest design of right-angled opening corners of ship metal structures. The actual process is poor in operability and the expected crack arrest effect is not good. It is difficult to guarantee the final quality of ship products during construction

Method used

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  • Method for preventing and stopping crack of open right angle corner of ship metal structure trunk bulkhead
  • Method for preventing and stopping crack of open right angle corner of ship metal structure trunk bulkhead
  • Method for preventing and stopping crack of open right angle corner of ship metal structure trunk bulkhead

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Experimental program
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Effect test

Embodiment 1

[0147] like figure 2 As shown, it is the basic node form of the stress transfer mode in this embodiment. The method for crack prevention and crack arrest at right-angled corners of the opening of the metal structure enclosure of the ship in this embodiment includes the following steps:

[0148] Step 1. Expand the designed opening 00 of the surrounding wall 1 until the upper deck 2 or / and the lower deck 20 form a through-shaped enlarged opening (hereinafter referred to as "through opening");

[0149] Step 2. Along the edge of the through opening 01, according to the position and size of the designed opening 00, respectively weld the slats 3 filled with homogeneous materials;

[0150] Step 3, a vertical anti-crack 61 is left between the slat 3 and the edge of the through opening 01, and a transverse anti-crack 62 is left between adjacent slats 3;

[0151] Step 4. Carry out corresponding finite element calculation and analysis on the through opening 01 and its directly related ...

Embodiment 2

[0158] like image 3 As shown, this embodiment is a simplified variant of the above-mentioned stress transfer basic node form. The method for preventing and arresting cracks at right-angled corners of the enclosure wall openings of ship metal structures in this embodiment includes the following steps:

[0159] Step 1. Expand the opening of the surrounding wall 1 with the same width as the designed opening 00 until the upper deck 2 or / and the lower deck 20 form a through opening 01;

[0160] Step 2, along the upper (and / or lower) edge of the through opening 01, respectively weld the slats 3 filled with homogeneous materials according to the height dimension of the designed opening 00;

[0161] Step 3, a vertical crack 61 is left between the slat 3 and the edge of the through opening 01;

[0162] Step 4. Carry out corresponding finite element calculation and analysis on the through opening 01 and its directly related structures formed in the above step 3, and calculate the stre...

Embodiment 3

[0168] like Figure 4 As shown, it is a lateral steering variant of the aforementioned stress transfer basic node form. The method for crack prevention and crack arrest at right-angled corners of the ship metal structure enclosure wall opening in this embodiment includes the following steps:

[0169] Step 1. Expand the designed opening 00 of the surrounding wall 1 until the left intersecting surrounding wall 11 or / and the right intersecting surrounding wall 12 form a through opening 01;

[0170] Step 2, along the edge of the through opening 01, weld the slats 3 filled with homogeneous materials according to the position and size of the designed opening 00;

[0171] Step 3: A horizontal anti-crack 62 is left between the slat 3 and the edge of the through opening 01, and a vertical anti-crack 61 is left between adjacent slats 3;

[0172] Step 4. Carry out corresponding finite element calculation and analysis on the through opening 01 and its directly related structures formed i...

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Abstract

The invention discloses a method for preventing and stopping a crack of an open right angle corner of a ship metal structure trunk bulkhead. The method for preventing and stopping the crack of the open right angle corner of the ship metal structure trunk bulkhead is characterized in that the traditional crack-stopping hole design is replaced by using a crack-stopping crack design so that the stress originally concentrated on the right angle corner is transferred to an intersected deck (or an intersected trunk bulkhead) easy to reinforce or is dispersed to a specially designed anti-crack circular arc by using a specially designed crack-stopping crack; therefore, the convenience of the structure is convenient to reinforce or the concentrated stress is reduced to effectively stop and preventthe crack.

Description

technical field [0001] The invention belongs to the technical field of ship design and construction, and in particular relates to a method for preventing and arresting cracks at right-angled corners of openings of ship metal enclosure walls, especially ship metal structure enclosure walls of superstructures. Background technique [0002] The opening corner of the metal enclosure is a highly concentrated area of ​​stress in the metal structure. After being stressed, the highly concentrated stress value can easily exceed the design allowable stress value, resulting in corner cracks and further tearing of the entire metal enclosure. Therefore, the opening of the metal fence is usually designed as a circular arc to disperse the concentrated stress to the stress concentration area enlarged by the circular arc, effectively reducing the concentrated stress value and ensuring the working strength of the metal fence. [0003] Obviously, in terms of the dispersion of concentrated stre...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B63B9/00B63B15/00
CPCB63B15/00B63B71/00
Inventor 王佳颖侯方衍
Owner HUDONG ZHONGHUA SHIPBUILDINGGROUP
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