• 제목/요약/키워드: Slenderness angle

검색결과 50건 처리시간 0.021초

Flank 마모에 의한 SUS304의 절삭특성에 관한 연구 (A study on the cutting characteristics of SUS304 by flank wear)

  • 유기현;정진용;서남섭
    • 한국정밀공학회지
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    • 제11권2호
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    • pp.182-188
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    • 1994
  • This expermintal study is intended to investigate he development of flank wear in turning os SUS304 which is used in industrial applications and is acknowledged as a machining difficult material. In cutting process, change of velocity, change of feed, and change of depth of cut were investigated about the effect of flank wear, and slenderness ratio is also investigated. The variations of unit cutting force with the change of rake angle and the change of uncut chip area are observed. The friction angles are calculated for the change friction force and observed. The friction angles are calculated for the change friction force and normal forcd on the different rake angles. From this experimental study, the following results can be said. 1. Under the high cutting speed condition, the flaank wear is affected by the feed and depth of cut, but the influence of feed and depth of cut to the flank wear is reduced when the velocity is low. 2. The smaller slenderness ratio is, the shorter the tool life results in high cutting speed, and the lower cutting speed is, the lower the effect of slenderness ratio to the flank wear is. 3. Using the characteristics of force-RMS, the flank wear of a tool can be detected. There are almost no differences between the RMS characteristics of cutting force and feed force.

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알루미늄합금 절삭시 절삭성과 절삭조건의 상관성에 관한 연구 (A Study on the Correlation between Machinability and the Cutting Condition in Machining Aluminum Alloy)

  • 오석형
    • 한국기계가공학회지
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    • 제3권4호
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    • pp.56-62
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    • 2004
  • Using NC or CNC machine tool, the unmanned automatic production system has been growing recently in the manufacturing field. Thus it is important to find out the machinability of cutting force, tool wear and surface roughness during the cutting process. It is necessary to find how to estimate the machinability for the effective cutting condition because of problem about cutting power, tool wear, cutting time and precision. This study was planned to discover the relations of tool wear by variations of roughness and derived to correlate the wear with the surface roughness on the cutting parameter(cutting force, flank wear, surface roughness, friction angle, shear angle, slenderness ratio) when the aluminum alloy was cut in turning.

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The empirical corner stiffness for right-angle frames of rectangular and H-type cross-sections

  • Kwon, Young-Doo;Kwon, Soon-Bum;Gil, Hyuck-Moon;Cho, Hui-Jeong
    • Structural Engineering and Mechanics
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    • 제51권3호
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    • pp.471-485
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    • 2014
  • Until now, the finite corner stiffness of the right-angle frames used as horizontal girders in a bonnet, have not been considered during the design process to result in not a precise result. This paper presents a design equation set for right-angle frames used as horizontal girders in a bonnet assuming rigid corner stiffness. By comparing the center stresses of the right-angle frame according to the design equation set with the results of the finite element method, the master curves for the empirical corner stiffness can be determined as a function of slenderness ratio. A second design equation set for a right-angle frame assuming finite corner stiffness was derived and compared with the first equation set. The master curves for the corner stiffness and the second design equation set can be used to determine the design moments at the centers of the girder so that the bending stresses can be analyzed more precisely.

연속계 해석에 의한 보오링바의 비선형 동적 거동

  • 박수길;강명창;김정석
    • 한국정밀공학회:학술대회논문집
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    • 한국정밀공학회 1993년도 춘계학술대회 논문집
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    • pp.137-141
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    • 1993
  • In the case of a boring bar, the vibration amplitude is generallylarge due to its high slenderness. The boring bat is then modelled as a cantilever with dynamic force acting at the free end and a generalized model of nonlinear continous system is obtained. The Analysis of model is conducted for the specific case with a zero side cutting edge angle. The dynamic behaviour is investigated for machining processes in which the the overlap factor of regenerative effect is considered. The vibration characteristics of boring bar depth of cut rather than feed rate in given slenderness.

실선 보강판의 세장비 분포 및 평균 압축 강도 비교 연구 (Slenderness Ratio Distributions and Average Compressive Strengths of Stiffened Plates Used for In-Service Vessels)

  • 남지명;정준모;전상익;이민성;하태범
    • 대한조선학회논문집
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    • 제47권5호
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    • pp.709-718
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    • 2010
  • This paper deals with two contents: first, distributions of plate slenderness ratios, stiffened plate slenderness ratios, and stiffener slenderness ratios, which include dimensions and material variables of stiffened plates, of stiffened plates of large-sized in-service vessels, and, second, comparison of compressive strengths. The investigated vessels consist of 59 tankers, 49 bulkers, 28 product carriers, 15 container carriers, and 12 multi-purpose vessels. The tankers are ranged from handymax class to VLCC and larger than Suezmax class. The sizes of the bulkers are 20K to 200K deadweight. The maximum size of containers is less than 5000TEU class. Two parameters for normal distributions of the slenderness ratios (mean and standard deviation) are suggested and probable ranges of the slenderness ratios are also graphically presented. The ultimate strengths of the stiffened plates are presented using the various simplified formulas and nonlinear FEAs. As well, average compressive strength curves, which are necessary for the estimation of the hull girder moment capacities, are proposed. It is proved that formulas for stiffened plates in CSR overestimate slightly in overall average strain range. Mode5 formula (plate buckling mode) in CSR show unreasonably conservative results with respect to the ultimate strengths rather than post-ultimate average compressive strengths.

Axially loaded reinforced concrete composite columns using steel angles and strips: An experimental and analytical assessment

  • Nehal M. Ayash;Ahmed H. Ali;Ahmed Abdellatif;Hala Mamdouh
    • Steel and Composite Structures
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    • 제53권4호
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    • pp.461-480
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    • 2024
  • This paper investigates the utilization of composite columns achieved by incorporating four steel angles at the corners of columns, interconnected with transverse plates. The experimental program involves ten columns, varying slenderness ratio, angle thickness, and transverse reinforcement spacing to evaluate the effect of variable parameters on the load-carrying capacity, Failure modes and behavior of these type of composite columns. Also, The objective of this research is revised the analytical calculations from the different international codes/standards to test their reliability in predicting the load-carrying capacity of composite columns compared to experimental results. Next, using ANSYS and validated finite element method, a parametric analysis is carried out for cases under eccentric loading. According to results, Steel-angled composite columns perform better than regular columns, demonstrating increases in load carrying capability because of improved confined concrete within steel angles. As the thickness of the steel angles increased (reinforcement ratio increased from 2.91% to 4.75%), increasing load capacity to 28% and lowering axial and lateral displacements to 20% and 30%, respectively. There was a difference in the experimental and finite element ' load capacities at failure that ranged from (-3%) to (+6%). The effect of slenderness ratio in columns with eccentric load is clear that the load capacities of the slender columns are 10% less than those of the shorter ones when axial eccentric loads are taken into account according to parametric investigation. In addition, both AISC and ECP 205 included the slenderness ratio when estimating load capacity; however, AISC was less cautious than ECP 205. Both ACI 318 and ECP 203 neglect the slenderness ratio when calculating load capacity that ECP 203 understates while ACI 318 code overstates load capability.

Slender RC columns strengthened with combined CFRP and steel jacket under axial load

  • Lu, Yi-yan;Li, Na;Li, Shan;Ou, Tian-yan
    • Steel and Composite Structures
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    • 제19권5호
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    • pp.1077-1094
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    • 2015
  • This paper presents an experimental study on the effectiveness of simultaneous application of carbon fiber-reinforced polymer (CFRP) and steel jacket in strengthening slender reinforced concrete (RC) column. The columns were 200 mm square cross section with lengths ranging from 1600 to 3000 mm. Ten columns were tested under axial load. The effects of the strengthening technique, slenderness ratio, cross-section area of steel angle and CFRP layer number were examined in terms of axial load-axial strain curve, CFRP strain, steel strip strain and steel angle strain. The experiments indicate that strengthening RC columns with combined CFRP and steel jacket is effective in enhancing the load capacity, ductility and energy dissipation capacity of RC column. Based on the existing models for RC columns strengthened with CFRP and with steel jacket, a design formula considering a slenderness reduction factor is proposed to predict the load capacity of the RC columns strengthened with combined CFRP and steel jacket. The predictions agree well with the experimental results.

Assessing asymmetric steel angle strength under biaxial eccentric loading

  • Shu-Ti Chung;Wei-Ting Hsu
    • Structural Engineering and Mechanics
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    • 제91권5호
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    • pp.517-526
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    • 2024
  • Due to the asymmetric cross-section of unequal-angle steel, the application of loads can induce axial rotation, leading to a series of buckling failure behaviors. Special attention must be paid during the design process. The present study aims to analyze the structural behavior of asymmetric steel angle members under various eccentric loading conditions, considering the complex biaxial bending interaction that arises when the angle steel is connected to the panel. Several key factors are investigated in this paper, including the effects of uniaxial and biaxial eccentricity on the structural behavior and the eccentric axial compression strength of long and short legs at different load application points. Potential risks associated with the specified load points, based on the AISC specifications, are also discussed. The study observed that the strength values of the members exhibited significant changes when the eccentric load deviates from the specified point. The relative position of the eccentric load point and the slenderness ratio of the member are critical influencing factors. Overall, this research intends to enhance the accuracy and reliability of strength analysis methods for asymmetric single angle steel members, providing valuable insights and guidance for a safer and more efficient design.

불연속 변단면을 갖는 원호 곡선부재의 자유진동 (Free Vibrations of Stepped Circular Arcs)

  • 오상진;진태기;최규문;이종국
    • 한국소음진동공학회:학술대회논문집
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    • 한국소음진동공학회 2002년도 춘계학술대회논문집
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    • pp.429-434
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    • 2002
  • The differential equations governing in-plane free vibrations of stepped circular arcs, including the effects of axial deformation, rotatory inertia and shear deformation, are derived and solved numerically to obtain frequencies and mode shapes. Numerical results are calculated for the clamped-clamped symmetric and unsymmetric circular arcs with thickness varying in a discontinuous fashion. The lowest four natural frequencies and mode shapes are presented over a range of non-dimensional system parameters: the subtended angle, the slenderness ratio, the section ratio and the ratio of discontinuous section.

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Practical second-order analysis and design of single angle trusses by an equivalent imperfection approach

  • Cho, S.H.;Chan, S.L.
    • Steel and Composite Structures
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    • 제5권6호
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    • pp.443-458
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    • 2005
  • Steel angles are widely used in roof trusses as web and chord members and in lattice towers. Very often angle members are connected eccentrically. As a result, not only an angle member is under an axial force, but it is also subject to a pair of end eccentric moments. Moreover, the connection at each end provides some fixity so neither pinned nor the fixed end represents the reality. Many national design codes allow for the effects due to eccentricities by modifying the slenderness ratio and reducing the compressive strength of the member. However, in practice, it is difficult to determine accurately the effective length. The concept behind this method is inconsistent with strength design of members of other cross-sectional types such as I or box sections of which the buckling strength is controlled by the Perry constant or the initial imperfection parameters. This paper proposes a method for design of angle frames and trusses by the second-order analysis. The equivalent initial imperfection-to-length ratios for equal and unequal angles to compensate the negligence of initial curvatures, load eccentricities and residual stresses are determined in this paper. From the obtained results, the values of imperfection-to-length ratios are suggested for design and analysis of angle steel trusses allowing for member buckling strength based on the Perry-Robertson formula.