CN109142036A - A kind of vertebral plate fixed plate static system bending compression test method - Google Patents
A kind of vertebral plate fixed plate static system bending compression test method Download PDFInfo
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- CN109142036A CN109142036A CN201811219820.4A CN201811219820A CN109142036A CN 109142036 A CN109142036 A CN 109142036A CN 201811219820 A CN201811219820 A CN 201811219820A CN 109142036 A CN109142036 A CN 109142036A
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N3/00—Investigating strength properties of solid materials by application of mechanical stress
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N3/00—Investigating strength properties of solid materials by application of mechanical stress
- G01N3/08—Investigating strength properties of solid materials by application of mechanical stress by applying steady tensile or compressive forces
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N3/00—Investigating strength properties of solid materials by application of mechanical stress
- G01N3/20—Investigating strength properties of solid materials by application of mechanical stress by applying steady bending forces
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Abstract
This patent discloses a kind of vertebral plate fixed plate static system bending compression test methods, it is completed using following equipment: a kind of vertebral plate fixed plate static system bending compression experimental rig, testing machine attachment device and testing machine, it is pressurizeed using static pressure to the fixed board test device joint test block of vertebral plate, the load and displacement of continuous measurement variation simultaneously, and the corresponding data of output displacement and load;Described method includes following steps: Step 1: installation steps;Step 2: experimental design step;Step 3: experimental procedure;With Step 4: data analysis step;Wherein the data analysis step includes, according to the load and displacement of record, determining 2% residual displacement, bending compression yield load, bending compression rigidity and bending compression ultimate load.This testing program is assembled according to vertebral plate fixed plate in actual surgery and the positional relationship of backbone, and postoperative enabling vertebral plate is simulated by applying load and is squeezed the situation of " shutdowns ", the bending resistance of measurement vertebral plate fixed plate.
Description
Technical field
This patent belongs to area of medical devices, specifically, designing a kind of vertebral plate fixed plate static system bending compression examination
Proved recipe method.
Background technique
Vertebral plate fixed plate system is called laminoplasty system, and vertebral plate fixed plate (as shown in Figure 1) is Intraspinal diseases patient,
After laminectomy, the inner fixing device of vertebral plate reconstruction is carried out.Mainly there is simple vertebra for the treatment method of Intraspinal diseases
Plate resection and laminoplasty etc..Canalis spinalis, complete resection occupy-place should sufficiently be appeared for intraspinal tube operation and release spinal cord
Compressing, will also maintain spinal biomechanics stability.
The vertebral plate of " enabling side " and lateral mass are bridged by vertebral plate fixed plate, can make the vertebral plate started obtain it is postoperative at once
Stability.Spinal cord can directly be depressurized and spinal cord is allowed to migrate off intervertebral and vertebra to back side by increasing canalis spinalis volume
Body can be accomplished sufficiently to appear and depressurize and prevent the postoperative unstability of backbone in operation to complete indirect decompression.Laminoplasty
Art avoids the wide excision of spinal posterior structure, takes into account spinal canal decompression and spinal stability, reduce spinal anterior approach and
Complication such as endorchis cicatricial adhesion, and this art can sufficiently appear canalis spinalis, open surgery under the people visual field, avoid cauda equina nerve and
Nerve root injury, lesion excision are extensively and thorough.
Patient's progress laminoplasty is postoperative, and the tissues such as muscle around door-hinge side can shrink the vertebral plate for squeezing and raising, if
The mechanical property of vertebral plate fixed plate is insufficient, will cause in shutdown phenomenon.Postoperative close the door again is main, most serious complication.
It is at present " the spinal implant test side in vertebral resection model YY/T 0857-2011 for the experimental method of spinal implant
Method ", wherein test block and loading method to vertebral plate fixed system and are not suitable for.There is no be directed to vertebral plate fixed plate mechanics now
The test method of performance comparison, cannot the performance of vertebral plate fixed plate to different model carry out the accurate of closing to reality use state
Evaluation.
Patient's progress laminoplasty is postoperative, and the tissues such as muscle around door-hinge side can shrink the vertebral plate for squeezing and raising, if
The mechanical property of vertebral plate fixed plate is insufficient, will cause in shutdown phenomenon.Postoperative close the door again is main, most serious complication
This testing program is assembled according to vertebral plate fixed plate in actual surgery and the positional relationship of backbone, simulates art by applying load
Back pullout (BPO) vertebral plate is squeezed the situation of " shutdown ", measures the bending resistance of vertebral plate fixed plate, mentions to the design of vertebral plate fixed plate
It, can be to different materials, different model, different factories according to the testing program for foundation, while to same testing program is established
Family's production vertebral plate fixed plate carries out mechanical property comparison.
Summary of the invention
This patent is based on the demand of the prior art and proposes, the technical problems to be solved by the patent is to provide
A kind of vertebral plate fixed plate static system bending compression test method is with close to testing vertebra under conditions of vertebral plate fixed plate use state
The respective physical performance of plate fixed plate.
In order to solve the above-mentioned technical problem the method for this patent offer includes:
A kind of vertebral plate fixed plate static system bending compression test method, which is characterized in that the method is used and such as divided into
It is standby to complete: a kind of vertebral plate fixed plate static system bending compression experimental rig, in a manner of through the environment of simulation vertebral plate work
Test the mechanical property of vertebral plate fixed plate, the experimental provision includes: vertebral plate fixed board test device lower bracket test block, vertebra
Plate fixed plate and link block, the fixed board test device lower bracket test block of the vertebral plate and the link block are poly- using supra polymer
Ethylene realizes, the tensile break strength of ultra high molecular polyethylene should be 40 ± 3Mpa, under the fixed board test device of each vertebral plate
Stented test block and link block only use once;The vertebral plate fixed plate includes the first fixing end, the second fixing end and connection
Connecting plate between the first fixing end and the second fixing end;Lower bracket experiment block includes pedestal and is located at pedestal two sides
The erecting bed of pedestal is stretched out in along identical direction, the pedestal can be set to essentially flat shape, the peace of two sides
Dress platform and the pedestal are integrally formed into the shape of " ︼ ", and the second of the vertebral plate fixed plate is fixed on the installation
On platform, the quantity of vertebral plate fixed plate is two, is separately mounted on the erecting bed of two sides;It is mounted in the erecting bed two sides
The first end of latter two vertebral plate fixed plate of vertebral plate fixed plate is fixed on link block;When vertebral plate fixed plate specification difference,
By the link block of design different distance N (length that N is link block), to guarantee the fixed board test device lower bracket test of vertebral plate
Block is consistent, it is ensured that the load arm of force is identical;The link block, the vertebral plate for described two opposite settings to be arranged in are fixed
Between plate, including upper surface, lower surface and side, the upper surface are the shape of basic horizontal, and the lower surface is prominent downwards
Curve out, the side surface is matched with the first end shape of the vertebral plate fixed plate, on the upper surface of the link block
It is preferred that offering load location hole;The fixed top plate of the vertebral plate is fixedly installed on the inside top of the erecting bed, the installation
The mounting surface shape of second end described in the inside top shape of platform and the vertebral plate fixed plate and the inside top of the erecting bed
The shape of mounting surface matches;Testing machine attachment device, the attachment device include loading blocks and testing machine connecting plate;The load
The upper end of block is bulk, and including the connecting hole connecting with testing machine, the lower end for stating loading blocks is formed as rod-shaped, is inserted into the company
It connects in the load location hole of block;The testing machine connecting plate includes plate, and the lower end of the testing machine connecting plate is connected to test
The fixing end of machine, the upper end of the testing machine connecting plate and the fixed company of the fixed board test device lower bracket test block of the vertebral plate
It connects;Testing machine pressurizes to the fixed board test device joint test block of vertebral plate using static pressure, while the load of continuous measurement variation
And displacement, and the corresponding data of output displacement and load;Described method includes following steps: Step 1: installation steps;Step
Two, experimental design step;Step 3: experimental procedure;With Step 4: data analysis step;The wherein data analysis step packet
It includes, according to the load and displacement of record, determines 2% residual displacement, bending compression yield load, bending compression rigidity and compression
Beaming limit load.
Preferably, in each step of the method, Step 1: installation steps, get out vertebral plate fixed plate system experimentation dress
Lower support test block and the fixed board test device joint test block of vertebral plate;And with screw by vertebral plate fixed plate and experimental provision into
Luggage is matched;Vertebral plate fixed plate opening machine system test device lower bracket is fixed on testing machine connecting plate, guarantees loading blocks center and vertebra
The fixed board test device link block center alignment of plate;Step 2: experimental design step, sets software environment, testing machine control is opened
Software editing testing program processed, and the motion mode of the testing machine is set for displacement, and set 5mm/ for Bit andits control
min;Step 3: experimental procedure, the static pressure generated using testing machine add the fixed board test device joint test block of vertebral plate
Pressure, while the load and displacement of continuous measurement variation, and the corresponding data of output displacement and load.Step 4: data analysis step
Suddenly, according to the load and displacement recorded in step 3, determine that 2% residual displacement, bending compression yield load, bending compression are rigid
Degree and bending compression ultimate load;The load displacement data preparation that testing machine exports is obtained into vertebral plate fixed plate bending compression position
Curve of load a is moved, linear fit is carried out to the initial linear portion of curve and obtains matched curve b, matched curve is carried out linear
Biasing, offset or dish are 2% residual displacement, obtain bias curve c;It is displaced the intersection point ordinate of curve of load a and bias curve c
For bending compression yield load, the slope of matched curve b is bending compression rigidity, is displaced the maximum of ordinate on curve of load a
Value is bending compression ultimate load.
This testing program is assembled according to vertebral plate fixed plate in actual surgery and the positional relationship of backbone, by applying load
It is squeezed the situation of " shutdown " to simulate postoperative enabling vertebral plate, the bending resistance of vertebral plate fixed plate is measured, to vertebral plate fixed plate
Design foundation is provided, can be to different materials, different shaped according to the testing program while to same testing program is established
Number, different manufacturers produce vertebral plate fixed plate and carry out mechanical property comparison.
Detailed description of the invention
Fig. 1 is the fixed board test device installation diagram of vertebral plate;
Fig. 2 is the postoperative schematic diagram of laminoplasty;
Fig. 3 is load schematic diagram;
Fig. 4 is typical load displacement curve figure.
Specific embodiment
Specific implementation of the patent mode is described in detail with reference to the accompanying drawing, it should be pointed out that the specific reality
Applying mode is only the citing to this patent optimal technical scheme, can not be interpreted as the limitation to the scope of this patent.
As shown in Figure 1, providing firstly a kind of vertebral plate fixed plate static system bending compression examination in present embodiment
Experiment device.The device is used to carry out mechanical test experiment for the vertebral plate fixed plate system.
The vertebral plate fixed plate system uses commonly used in repairing fixed natural Vertebral laminectomy.Using vertebral plate fixed plate
During system, selecting symptom in the predetermined position of vertebra compared with heavy side is enabling side, along the interior lateral margin 2- of bilateral facet joint 9
Open seam slot at 3mm, opens Vertebral laminectomy, the saturating Vertebral laminectomy inside cortex bone of enabling side grinding to endorchis with miniature high-speed abrasive drilling mill
Capsule grinds " V " shape bone slot 6, the bone groove depth to vertebral plate deep cortex, as door-hinge side with abrasive drilling on the Vertebral laminectomy of opposite side
Hinge.Then vertebral plate fixed plate is connect in such a way that screw is fixed with the Vertebral laminectomy after correction.Vertebra after connection
Section view is as shown in Figure 2.At this point, due to forming the vertebra after fixing, since vertebra is the main stress bone of human body,
Vertebral plate fixed plate will usually undertake corresponding stress in human body, and the performance of vertebral plate fixed plate is with it under different stress
It shows directly related.
Above-mentioned working method based on vertebral plate fixed plate provides firstly a kind of vertebral plate fixed plate in present embodiment
Static system bending compression experimental rig tests the mechanics of vertebral plate fixed plate in a manner of through the environment of simulation vertebral plate work
Performance.As shown in Figure 1, one of present embodiment vertebral plate fixed plate static system bending compression experimental rig includes:
Vertebral plate fixes board test device lower bracket test block 1, vertebral plate fixed plate 2, link block 3, screw 4.
The structure of common vertebral plate fixed plate is as shown in Figure 1 comprising the first fixing end 21, the second fixing end 22 and company
The connecting plate 23 being connected between the first fixing end and the second fixing end, the usual vertebral plate fixed plate are made for titanium alloy.
First fixing end 21 is formed as plate mouth shape in the present embodiment comprising upper lip 211, lower lip 212, the upper lip is under
The inner end of lip links together with the connecting plate 23, cuts so that the plate mouth is shaped to a substantially V-type sidewards
The plate mouth in face.Wherein the first fixing end and the second fixing end are fixedly connected with the different piece of vertebral plate respectively, the vertebral plate described in this way
Fixed plate just by spinal correction and is fixed up.
In the experimental provision of Fig. 1, the lower bracket experiment block includes pedestal 11 and is located at pedestal two sides along identical
Direction stretch out in the erecting bed 12 of pedestal, the pedestal can be set to essentially flat shape, the erecting bed of two sides and
The pedestal is integrally formed into the shape of " ︼ ".The second of the vertebral plate fixed plate is fixed on the erecting bed 12
On, as described in Figure, the quantity of the vertebral plate fixed plate is two, is separately mounted on the erecting bed of two sides.Preferably, described
The fixed top plate of vertebral plate is fixedly installed on the inside top of the erecting bed, the inside top shape of the erecting bed and the vertebral plate
The shape of the inside top mounting surface of the mounting surface shape and erecting bed of second end described in fixed plate matches, and the vertebral plate is solid
It can be fixed up by screw between fixed board and the erecting bed.Thus firmly the vertebral plate fixed plate can be installed
On the erecting bed, the installation situation of the second end of vertebral plate fixed plate in actual use is simulated.
It is mounted with that the first end of latter two vertebral plate fixed plate of vertebral plate fixed plate is fixed on connection in the erecting bed two sides
As shown in Figure 1, it simulates working environment of the vertebral plate fixed plate after actually implantation as much as possible on block.For the vertebra of different model
Plate fixed plate, size are different, thus it is possible to vary the fixed board test device joint test block length N of vertebral plate, to guarantee that vertebral plate is fixed
Board test device lower bracket test block is consistent, it is ensured that the load arm of force is identical.
1,3 test blocks marked in Fig. 1 are high molecular polythene material, are used to prepare the ultra high molecular polyethylene of test block
Tensile break strength should be (40 ± 3) Mpa, each test block is used only once.High molecular polythene block can eliminate bone
Characteristic and morphometry bring influence.
The experimental provision further includes link block 3, and the link block 3 is an individual block, as shown in Figure 1, it is used for
It is arranged between the vertebral plate fixed plate of described two opposite settings, the structure of the link block 3 includes upper surface, following table
Face and side, the upper surface are the shape of basic horizontal, and the lower surface is general downward projection of arc curve, the side
Surface can may be the V-arrangement matched with the first end shape of the vertebral plate fixed plate for plane.In the link block 3
Load location hole is preferably offered on upper surface, is connected by the load location hole with the loading blocks 7 of testing machine.It is logical in this way
Overtesting machine loads corresponding test force to complete the test of the different performance of the vertebral plate fixed system.The load location hole
For the load output end of location test machine loading blocks 7, it on the one hand can guarantee the stabilization that exerts a force when test, it on the other hand can be with
Determine that force application location guarantees the force balance of load.
The attachment device of the experimental provision and testing machine is as shown in figure 3, the attachment device includes loading blocks 7 and test
Machine connecting plate 8, the upper ends of the loading blocks 7 are bulk, and the bulk upper end includes connecting hole connect with testing machine, it is certain its
Its similar connection type is also that those skilled in the art are contemplated that according to hole, for example, slot, such as being screwed.It is described
The lower end of loading blocks 7 is formed as rod-shaped, in this way convenient for being combined with the lesser link block 3 of size, the rod-shaped lower end of the loading blocks
It is inserted into the link block 3, it in this way can be for delivery to the experiment by the loading blocks 7 after the testing machine exerts a force
On device.The testing machine connecting plate 8 includes plate, and the lower end of the testing machine connecting plate 8 is connected to the fixing end of testing machine,
The lower end of the testing machine connecting plate 8 is fixedly connected with the fixed board test device lower bracket test block 1 of the vertebral plate;The fixation
As long as the mode of connection can play fixed function by bolt or similar connection type.
When testing machine works, the static pressure generated using testing machine adds the fixed board test device joint test block of vertebral plate
Pressure, while the load and displacement of continuous measurement variation, and the corresponding data of output displacement and load.Present embodiment according to
Above-mentioned experimental provision further provides a kind of vertebral plate fixed plate bending compression test method, the method it include following step
It is rapid:
Step 1: installation steps
Get out vertebral plate fixed plate system experimental device lower bracket test block and the fixed board test device joint test of vertebral plate
Block;And vertebral plate fixed plate is assembled with experimental provision with screw;Vertebral plate fixed plate opening machine system test device lower bracket is fixed
Onto testing machine connecting plate, guarantee that loading blocks center is aligned with the fixed board test device link block center of vertebral plate.
Step 2: experimental design step
Software environment is set, testing machine is opened and controls software MDCTest-D, edit testing program, and the test is set
The motion mode of machine is displacement, and sets 5mm/min for Bit andits control.The static pressure generated using testing machine, it is solid to vertebral plate
The pressurization of fixed board test device joint test block, while the load and displacement of continuous measurement variation, and pair of output displacement and load
Answer data.
Step 3: experimental procedure
The static pressure generated using testing machine to the fixed board test device joint test block pressurization of vertebral plate, while continuously being surveyed
Measure the load and displacement of variation, and the corresponding data of output displacement and load.
Step 4: data analysis step
According to the load and displacement recorded in step 3, determine that 2% residual displacement, bending compression yield load, compression are curved
Stiffness and bending compression ultimate load;
The load displacement data that testing machine exports are input in OriginPro 2016, available vertebral plate fixed plate pressure
The contracting bending displacement curve of load (a in such as Fig. 4) carries out linear fit to the initial linear portion of curve and obtains matched curve (such as
In Fig. 4 b), matched curve is subjected to linear bias, offset or dish is 2% residual displacement, obtains bias curve (c in such as Fig. 4).
The intersection point ordinate of curve a and straight line c is bending compression yield load, and the slope of b is bending compression rigidity, indulges and sits on a curve
Target maximum value is bending compression ultimate load.
The mechanical property of the bigger vertebral plate fixed plate of bending compression yield load is better.
2% residual displacement: the residual deformation of the 0.020 times of component active length measured by loader is (see B in Fig. 4
Point), active length is 2% residual displacement multiplied by 0.02
Bending compression rigidity: by the yield load of bending compression divided by elastic displacement (see the slope of BC in Fig. 4).For vertebral plate
The ability of fixed plate system attack deformation, bending compression rigidity is bigger, and mechanical property is better.
Bending compression yield load: it generates and is applied in the longitudinal direction needed for the residual deformation of 0.020 times of longitudinal component active length
The compressive load (see the load of D point in Fig. 4) added, bending compression yield load is bigger, and the mechanical property of vertebral plate fixed plate is better.
Bending compression ultimate load: the maximum compression load being applied on component (see the load of E point in Fig. 4).Vertebral plate is solid
Fixed board resists the maximum, force that can be resisted when bending compression deformation.
Claims (2)
1. a kind of vertebral plate fixed plate static system bending compression test method, which is characterized in that the method uses following equipment
It completes:
A kind of vertebral plate fixed plate static system bending compression experimental rig is surveyed in a manner of through the environment of simulation vertebral plate work
Try the mechanical property of vertebral plate fixed plate, the experimental provision includes: that the fixed board test device lower bracket test block of vertebral plate, vertebral plate are solid
Fixed board and link block, the fixed board test device lower bracket test block of the vertebral plate and the link block use ultra high molecular polyethylene
It realizes, the tensile break strength of ultra high molecular polyethylene should be 40 ± 3Mpa, the fixed board test device lower bracket of each vertebral plate
Test block and link block only use once;The vertebral plate fixed plate includes the first fixing end, the second fixing end and is connected to the
Connecting plate between one fixing end and the second fixing end;Lower bracket experiment block include pedestal and be located at pedestal two sides along
Identical direction stretches out in the erecting bed of pedestal, and the pedestal can be set to essentially flat shape, the erecting bed of two sides
The shape of " ︼ " is integrally formed into the pedestal, the second of the vertebral plate fixed plate is fixed on the erecting bed
On, the quantity of vertebral plate fixed plate is two, is separately mounted on the erecting bed of two sides;Vertebra is mounted in the erecting bed two sides
The first end of latter two vertebral plate fixed plate of plate fixed plate is fixed on link block;When vertebral plate fixed plate specification difference, lead to
The link block of design different distance N is crossed, wherein N is the length of link block, to guarantee the fixed board test device lower bracket examination of vertebral plate
It is consistent to test block, it is ensured that the load arm of force is identical;The link block, the vertebral plate for described two opposite settings to be arranged in are solid
Between fixed board, including upper surface, lower surface and side, the upper surface are the shape of basic horizontal, and the lower surface is downward
Curve outstanding, the side surface is matched with the first end shape of the vertebral plate fixed plate, in the upper surface of the link block
On preferably offer load location hole;The fixed top plate of the vertebral plate is fixedly installed on the inside top of the erecting bed, the peace
It fills in the mounting surface shape of second end described in the inside top shape and the vertebral plate fixed plate of platform and the top of the erecting bed
The shape of side mounting surface matches;
Testing machine attachment device, the attachment device include loading blocks and testing machine connecting plate;The upper end of the loading blocks is block
Shape, including the connecting hole connecting with testing machine, the lower end of the loading blocks is formed as rod-shaped, is inserted into the load of the link block
In location hole;The testing machine connecting plate includes plate, and the lower end of the testing machine connecting plate is connected to the fixing end of testing machine,
The upper end of the testing machine connecting plate is fixedly connected with the fixed board test device lower bracket test block of the vertebral plate;
Testing machine pressurizes to the fixed board test device joint test block of vertebral plate using static pressure, while the load of continuous measurement variation
Lotus and displacement, and the corresponding data of output displacement and load;
Described method includes following steps:
Step 1: installation steps;Step 2: experimental design step;Step 3: experimental procedure;With Step 4: data analysis step
Suddenly;Wherein the data analysis step includes, according to the load and displacement of record, determining 2% residual displacement, bending compression surrender
Load, bending compression rigidity and bending compression ultimate load.
2. the method according to claim 1, wherein in the step of the method,
Step 1: installation steps
Get out vertebral plate fixed plate system experimental device lower bracket test block and the fixed board test device joint test block of vertebral plate;And
Vertebral plate fixed plate is assembled with experimental provision with screw;Vertebral plate fixed plate opening machine system test device lower bracket is fixed to test
On machine connecting plate, guarantee that loading blocks center is aligned with the fixed board test device link block center of vertebral plate;
Step 2: experimental design step
Software environment is set, testing machine is opened and controls software editing testing program, and the motion mode that the testing machine is arranged is
Displacement, and 5mm/mi n is set by Bit andits control;
Step 3: experimental procedure
The static pressure generated using testing machine, to the fixed board test device joint test block pressurization of vertebral plate, while continuous measurement becomes
The load and displacement of change, and the corresponding data of output displacement and load.
Step 4: data analysis step
According to the load and displacement recorded in step 3, determine that 2% residual displacement, bending compression yield load, bending compression are rigid
Degree and bending compression ultimate load;
The load displacement data preparation that testing machine exports is obtained into vertebral plate fixed plate bending compression displacement curve of load a, to curve
Initial linear portion carry out linear fit obtain matched curve b, matched curve is subjected to linear bias, offset or dish 2%
Residual displacement obtains bias curve c;The intersection point ordinate for being displaced curve of load a and bias curve c is that bending compression surrender carries
Lotus, the slope of matched curve b are bending compression rigidity, and the maximum value for being displaced ordinate on curve of load a is the bending compression limit
Load.
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CN113456320A (en) * | 2021-02-02 | 2021-10-01 | 浙江德康医疗器械有限公司 | Static compression bending test device and method for zero notch fusion device system |
CN118032538A (en) * | 2024-04-09 | 2024-05-14 | 北京爱康宜诚医疗器材有限公司 | Scoliosis external test device |
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Denomination of invention: A static compression bending test method for lamina fixation system Effective date of registration: 20210904 Granted publication date: 20201106 Pledgee: China CITIC Bank Co.,Ltd. Jiaxing Branch Pledgor: ZHEJIANG DECANS MEDICAL INSTRUMENT Co.,Ltd. Registration number: Y2021330001348 |