Milan Držík scite author profile

The study is focused on the biomechanical aspects of the anterior cruciate ligament (ACL) reconstruction procedures with an emphasis on evaluating the dynamic strain of materials commonly used for this purpose. Separate and multiple, equally tensioned strands of hamstring grafts used for the reconstruction of the ACL were biomechanically tested and compared to original ACL and bone-patellar tendon-bone (BPTB) grafts, using tissue samples from cadavers. The study was focused on measuring such material properties as the strength, stiffness, maximum load, and elongation at maximum load of the original ACL, BPTB graft, and single tendon hamstring (gracilis and semitendinosus) grafts, continued by double strands and finally by four-strand graft (STG) evaluation. Fresh-frozen cadaveric knees were used, which had been clamped and tensioned equally. The measurement was performed by drop-weight testing, using a Laser Doppler Vibrometer as a basic sensor of the dynamic movements of the gripping clamps, with parallel correlation by a piezoelectric transducer. The grafts for experiments were obtained from 21-paired knees. The measurement was performed at room temperature (21 degrees C) after 24 h of thawing at 4 degrees C. All the specimens were measured for their response to the dynamic tensile load. The maximum strength values were obtained and calculated for the appropriate section area of the specimen. The tensioned strands of the original ACL showed a maximum average load of 1,246 +/- 243 N in the section area of about 30 mm(2) (max. stress 41.3 MPa); the strands of BPTB grafts showed values of 3,855 +/- 550 N in the section area of 80 mm(2) (max. stress 40.6 MPa); the gracilis tendons showed 925 +/- 127 N in the section area of 10 mm(2) (max. stress 95.1 MPa) and the semitendinosuss yielded a result of 2,050 +/- 159 N in the area of 20 mm(2) (max. stress 88.7 MPa). Of all the materials, the original ACL have the lowest strength and stiffness in respect of their biomechanical properties. BPTB grafts showed a slightly higher value of maximum stress, while both the gracilis and semitendinosus tendons showed double the value of maximum load per section area-tensile stress. Two- and four- combined hamstring strands clamped together and equally tensioned with a drop-weight had the combined tensile strength properties of the individual strands within the estimated range of measurement errors. No significant changes in maximum loads/stresses were observed under impact loading conditions. The results of this study demonstrate that equally tensioned four-strand hamstring-tendon grafts have higher initial tensile properties than those in other varieties of samples. From a biomechanical point of view, they seem to be a reasonable alternative procedure for ACL reconstruction.

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Mechanical properties of superhard TiB2 coatings prepared by DC magnetron sputtering

Mikula

Grančič²,

Buršı́ková

et al. 2007

Vacuum

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Non-contact method for surface roughness measurement after machining

Valíček¹,

Držík²,

Hryniewicz³

et al. 2012

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The paper deals with the measurement and identification of surfaces after machining in a non-contact manner. It presents a new modified measurement method and its implementation, the results of intensity distribution in the defocusing plane, their analysis and interpretation. The scanned intensity distribution at the defocusing plane gives information necessary to assess the second derivatives, and thus, surface functions which can be used to determine groove curvatures of the real surface morphology. The proposed method of measurement has proved to be very sensitive in evaluating the differences between surface finishing methods by which the measured surface standards (etalons) were machined. Two methods of machining were chosen: face grinding and planning. By comparing the roughness standard values Ra, there were obtained relationships between these values and the parameter of the characteristic frequency of vertical inequality being measured according to the presented method. A good correlation between the measured and surface standard values with the correlation coefficient taking a range of values from 0.8 to 1 was achieved.

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The improved performance of GaAs micromachined power sensor microsystem

Lalinský

Hašc̆ı́k

Mozolová

et al. 1999

Sensors and Actuators A: Physical

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Stress analysis by combination of holographic interferometry and boundary-integral method

Balaš

Sládek

Držík

1983

Experimental Mechanics

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Influence of passivation induced stress on the performance of AlGaN/GaN HEMTs

Gregušová

Bernát

Držík

et al. 2005

phys. stat. sol. (c)

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PACS 81.65.Rv, 85.30.De, 85.30.Tv This paper reports on properties of intentionally undoped AlGaN/GaN/sapphire-based high electron mobility transistors (HEMTs) before and after passivation with SiO 2 and Si 3 N 4 . Our results indicate that the DC performance of the AlGaN/GaN HEMTs improved significantly as the stress in the passivation layer increased from compressive to tensile. It corresponded to changes in the sheet carrier concentration. Unlike the DC properties, RF properties of the HEMTs were less sensitive to the stress.

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The influence of low-energy ion bombardment on the microstructure development and mechanical properties of TiBx coatings

Mikula

Grančič

Роч

et al. 2011

Vacuum

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Milan Držík

A cell-free nanofiber composite scaffold regenerated osteochondral defects in miniature pigs

Reconstruction of the anterior cruciate ligament: dynamic strain evaluation of the graft

Mechanical properties of superhard TiB2 coatings prepared by DC magnetron sputtering

Non-contact method for surface roughness measurement after machining

The improved performance of GaAs micromachined power sensor microsystem

Stress analysis by combination of holographic interferometry and boundary-integral method

Influence of passivation induced stress on the performance of AlGaN/GaN HEMTs

The influence of low-energy ion bombardment on the microstructure development and mechanical properties of TiBx coatings

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