• 한국농공학회논문집
• /
• 제49권6호
• /
• pp.47-54
• /
• 2007

This paper is on the research of the special character of the dynamic response according to a design of the clamped reinforced concrete slab. In this study, the 20-node solid element has been used to analyze the dynamic characteristics of RC slabs with clamped edges. The elasto-visco plastic model for material non-linearity and the smeared crack model have been adopted in the finite element formulation. The design factor, which affect the dynamic response of the reinforced concrete slab, are the steel layer thickness, steel layer depth, steel layout method, steel layout angle and the slab thickness and span ratio. The main purpose of this study was to find out the dynamic response of the reinforced concrete slab according to above variables. The reduction of deflection/thickness ratio appeared less than 2% when the slab thickness between 20 and 21cm. It is desirable that the slab thickness must be above 20-21cm. The reduction ratio of deflection is appeared greatly when the value of the span/thickness ratio is between 25 and 30. In conclusion, the steel layer depth and thickness had a little effect on deflection of the dynamic response, but had no effect on the steel layout angle.

• 한국지반공학회:학술대회논문집
• /
• 한국지반공학회 2005년도 춘계 학술발표회 논문집
• /
• pp.1039-1046
• /
• 2005

After clay particles have been sediment isotropically, the clay deposits have been consolidated under $K_0$-stress system. Therefore, in order to predict the behavior in-situ of normally consolidated clays, the laboratory test should be enforced under $K_0$-stress system and should obtain the characteristics of normally consolidated clays. And relationship of stress-strain on clay is effected on not only method of consolidation but also characteristic of visco-plastic behavior. Saturated clay is effected more this trend. So, rate of strain is considered to understand exact stress-strain relationship. In this study, the series of undrained triaxial compression tests were preformed on remolded specimens which was made by slurry of clay, consolidated under $K_0$-stress systems. And the undrained triaxial compression test were preformed to examine behavior of stress-strain relationship due to rate of shear strain relationship due to rate of shear strain.

• 한국소음진동공학회:학술대회논문집
• /
• 한국소음진동공학회 2005년도 추계 학술대회논문집(수송기계편)
• /
• pp.190-193
• /
• 2005

The air filter in engine intake system filters the dirt in the breathing air but also it attenuates the noise although the phenomenon has been regarded negligible. For the analysis of the acoustical performance of air filter, an acoustical model is suggested in this paper. The air filter consists of a porous filter element, which catches the particulate dirt, and a plastic filter box, which supports the filter element. Fibrous structure of the filter element is modeled as a micro-perforated panel using the flow resistivity and porosity. The pleated geometry of the filter element is modeled as two coupled ducts and a mathematical model is developed for the analysis of sound propagation. The filter box Is modeled as a rigid rectangular box. By combining two models, a 4-pole transfer matrix for the air filter is derived. The transmission loss calculated using the transfer matrix of the suggested model is compared with the measured data. Reasonably good agreement is observed. The result can be improved by considering the visco-thermal effect in modeling, in particular at a frequency range near the troughs of TL curve.

• 대한조선학회논문집
• /
• 제48권3호
• /
• pp.200-206
• /
• 2011

The mechanical properties of the most widely used cryogenic materials, i.e. austenitic stainless steel (ASS), aluminum alloy and invar steel, strongly depend on temperatures and strain rates. These phenomena show very complicated non-linear behaviors and cannot be expressed by general constitutive equation. In this study, an unified constitutive equation was proposed to represent the effect of temperature and strain rate on the materials. The proposed constitutive equation has been based on Tomita/Iwamoto and Bodner/Partom model for the expression of 2nd hardening due to martensite phase transformation of ASS. To simulate ductile fracture, modified Bodner/Chan damage model was additionally applied to the model and the model validity was verified by comparison of experimental and simulation results.

• 한국농공학회논문집
• /
• 제49권4호
• /
• pp.43-49
• /
• 2007

The reinforced concrete slab is one of main structure members in the construction industry sector. However, most of researches regarding to RC slabs have been focused on two-dimensional Mindlin-type plate element on the basis of laminated plate theory since three-dimensional solid element has a lot of difficulties in finite element formulation and costs in CPU time. In reality, the RC slabs are subjected to dynamic loads like a heavy traffic vehicle load, and thus should insure the safety from the static load as well as dynamic load. Once we can estimate the dynamic behaviour of RC slabs exactly, it will be very helpful for design of it. In this study, the 20-node solid element has been used to analyze the dynamic characteristics of RC slabs with clamped edges. The elasto-visco plastic model for material non-linearity and the smeared crack model have been adopted in the finite element formulation. The applicability of the proposed finite element has been tested for dynamic behaviour of RC slabs with respect to characteristics of concrete materials in terms of cracking stress, crushing strain, fracture energy and Poisson's ratio. The effect on dynamic behaviour is dependent on not crushing strain but cracking stress, fracture energy and Poisson's ratio. In addition to this, it is shown the damping phenomenon of RC slabs has been identified from the numerical results by using Rayleigh damping.

• Geomechanics and Engineering
• /
• 제29권1호
• /
• pp.41-51
• /
• 2022

Tunneling in rocks having the time-dependent behavior, causes some difficulties like tunnel convergence and, as a result, pressure on concrete lining; and so instability on this structure. In this paper the time-dependent behaviour of squeezing phenomenon in a large cross section tunnel was investigated as a case study: Alborz tunnel. Then, time-dependent behaviour of Alborz tunnel was evaluated using FLAC2D based on the finite difference numerical method. A Burger-creep viscoelastic model was used in numerical analysis. Using numerical analysis, the long-time effect of squeezing on lining stability was simulated.This study is done for primary lining (for 2 years) and permanent lining (for 100 years), under squeezing situations. The response of lining is discussed base on Thrust Force-Bending Moment and Thrust Force-Shear Force diagrams analysing. The results determined the importance of consideration of time-dependent behaviour of tunnel that structural forces in concrete lining will grow in consider with time pass and after 70 years can cause instability in creepy rock masses section of tunnel. To show the importance of time-dependent behavior consideration of rocks, elastic and Mohr-Coulomb models are evaluated at the end.

• Geomechanics and Engineering
• /
• 제28권2호
• /
• pp.171-180
• /
• 2022

Time-dependent stress-strain behaviour significantly influences the compressibility characteristics of the clayey soil. In this paper, a series of oedometer tests were conducted in two loading patterns and investigated the time-dependent compressibility characteristics of Indian Montmorillonite Clay, also known as black cotton soil (BC) soil, during loading-unloading stages. The experimental data are analyzed using a new non-linear function of the Elasto-Visco-Plastic Model considering Swelling behaviour (EVPS model). From the experimental result, it is found that BC soil exhibits significant time-dependent behaviour during creep compared to the swelling stage. Pore water entrance restriction due to consolidated overburden pressure and decrease in cation hydrations are responsible factors. Apart from it, particle sliding is also evident during creep. The time-dependent parameters like strain limit, creep coefficient and C_αe/C_c are observed to be significant during the loading stage than the swelling stage. The relationship between creep coefficients and applied stresses is found to be nonlinear. The creep coefficient increases significantly up to 630 kPa-760 kPa (during reloading), and beyond it, the creep coefficient decreases continuously. Several parameters like loading duration, the magnitude of applied stress, loading history, and loading path have also influenced secondary compressibility characteristics. The time-dependent compressibility characteristics of BC soil are presented and discussed in detail.

• 대한토목학회논문집
• /
• 제1권1호
• /
• pp.53-68
• /
• 1981

지속하중하(持續荷重下)의 점토지반(粘土地盤) 또는 사면(斜面)을 형성(形成)하고 있는 점토(粘土)는 시간의존변형(時間依存變形)을 일으키고 어떤 경우 파괴(破壞)에 이르기도 하는데 그 원인(原因)은 점토(粘土)의 Creep 거동(擧動) 때문이라는 보고(報告)가 대부분(大部分)이다. Creep 거동(擧動)은 많은 요소(要素)에 관련될 뿐 아니라 특(特)히 함수비(含水比) 및 응력수준(應力水準)에 큰 영향(影響)을 받기 때문에 매우 복잡(複雜)하며 따라서 그 거동(擧動)을 해석(解析) 하기도 어려운 일인데 Creep이 궁극적(窮極的)으로는 점토(粘土) 입자간(粒子間)의 미시적(微視的)인 거동(擧動)에서 비롯되기 때문이다. 응력(應力)-변형(變形)-시간(時間) 관계(關係)로서의 Creep 거동(擧動)을 수학적(數學的)으로 표현(表現)하기 위하여 여러 형태(形態)의 유변학적(流變學的) 모델이 제안(提案) 되었다. 유변학적(流變學的) 모델은 선형(線形) 스프링, 비선형(非線形) Dashpot 및 Slider를 조합(組合)한 것인데 점토(粘土)의 변형(變形)에 관한 탄성적(彈性的), 소성적(塑性的) 및 점성적(粘性的) 성분(成分)을 구분(區分) 하는데 매우 유용(有用)하다. 그러나 대부분(大部分)의 경우, 유변학적(流變學的)모델은 포화(飽和)된 점토(粘土)에 대(對)하여 주(主)로 2차압밀(次壓密) 거동(擧動)을 밝히기 위하여 제안(提案)된 것으로 비포화점토(非飽和粘土)에 대(對)한 보고(報告)는 매우 드문 것 같다. 한편, Creep 거동(擧動)은 시간의존변형(時間依存變形)이므로 흐트러진 점토(粘土)를 다져서 시험(試驗)하는 경우, 시간경과(時間經過)에 따라 Thixotropy 문제(問題)가 제기(提起)될 것이고 배수조건(排水條件)과 관련하여서는 공시체(供試體)의 높이가 문제(問題)될 수 있다. 그뿐 아니라 많은 연구결과(硏究結果)에 의(依)하면 응력증가초기(應力增加初期)에는 시간지체(時間遲滯)가 없는 초기탄성변형(初期彈性變形)이 발생(發生)된다고 하므로 유변학적(流變學的) 모델에는 이를 나타내는 요소(要素)가 반드시 필요(必要)하게 될 것이다. 본(本) 연구(硏究)는 이러한 면(面)에 초점(焦點)을 두고 함수비(含水比)와 응력수준(應力水準)을 여러 가지로 변화(變化)시켰을 때의 Creep 거동(擧動)을 유변학적(流變學的) 모델로 해석(解析)함에 있어 소성(塑性)이 비교적(比較的) 큰 3종(種)의 점토(粘土)를 사용(使用)하여 초기탄성변형(初期彈性變形) 거동(擧動)을 밝히고 Thixotropy 효과(効果) 및 공시체(供試體)의 높이가 Creep 거동(擧動)에 끼치는 영향(影響)을 구명(究明)하며 아울러 유변학적(流變學的) 모델의 어떤 요소(要素)에 관련 되는가를 알아내기 위하여 다져서 성형(成形)한 공시체(供試體)로서 일축배수형식(一軸排水形式)의 Creep 거동(擧動)을 시행(施行)하였다. 실험결과(實驗結果) 및 검토(檢討)에 의(依)하면 응력재하(應力載荷) 및 증가초기(增加初期)에는 시간지체(時間遲滯)가 없는 탄성적(彈性的) 초기변형(初期變形)이 발생(發生)하고 따라서 유변학적(流變學的) 모델에는 이를 나타내기 위한 상부(上部)스프링을 설치(設置)해야 하며 Thixotropy 효과(効果)를 고려(考慮)한 경우, Creep변형(變形)은 완만(緩慢)하게 되나 함수비(含水比) 및 응력수준(應力水準)에 따른 상태거동(狀態擧動)은 같으므로 그 차이(差異)는 모델 상수(常數)의 크기에만 관련됨을 알아내었고 따라서 동일(同一)한 유변학적(流變學的) 모델로 그 거동(擧動)을 나타낼 수 있다는 사실(事實)을 밝혀 냈다. 또 공시체(供試體) 높이를 작게 한 경우에는 함수비(含水比)가 비교적(比較的) 작아서 점(粘)-소(塑)-탄성(彈性) 및 점(粘)-탄성(彈性)일 때만 높이가 클 때와 같은 상태거동(狀態擧動)을 나타내어 동일(同一)한 유변학적(流變學的) 모델로 나타낼 수 있고 함수비(含水比)가 큰 점일소성(粘一塑性) 및 점성류(粘性流)일 때는 그 상태거동(狀態擧動)이 배수문제(排水問題)와 관련하여 달라지게 되고 따라서 유변학적(流變學的) 모델도 달라지게 된다는 사실(事實)을 발견(發見) 하였다.

• 대한기계학회논문집A
• /
• 제30권11호
• /
• pp.1494-1501
• /
• 2006

Mechanical and physical properties of a copper alloy for a liquid rocket engine(LRE) combustion chamber liner application were tested at various temperatures. All test specimens were heat treated with the condition they might experience during actual fabrication process of the LRE combustion chamber. Physical properties measured include thermal conductivity, specific heat and thermal expansion data. Uniaxial tension tests were preformed to get mechanical properties at several temperatures ranging from room temperature to 600$^{\circ}C$. The result demonstrated that yield stress and ultimate tensile stress of the copper alloy decreases considerably and strain hardening increases as the result of the heat treatment. Since the LRE combustion chamber operates at higher temperature over 400$^{\circ}C$, the copper alloy can exhibit time-dependent behavior. Strain rate, creep and stress relaxation tests were performed to check the time-dependent behavior of the copper alloy. Strain rate tests revealed that strain rate effect is negligible up to 400$^{\circ}C$ while stress-strain curve is changed at 500$^{\circ}C$ as the strain rate is changed. Creep tests were conducted at 250$^{\circ}C$ and 500$^{\circ}C$ and the secondary creep rate was found to be very small at both temperatures implying that creep effect is negligible for the combustion chamber liner because its operating time is quite short.

• 한국농공학회논문집
• /
• 제50권2호
• /
• pp.19-26
• /
• 2008

This study has been carried out to investigate the dynamic characteristics of RC slabs. For this purpose, the 20-node solid element has been used to discretize the RC slabs into two parts of concrete and rebar. The material non-linearity considering elasto-visco plastic model and the smeared crack model have been adopted in the finite element formulation. The applied load can handle step load, load intensity of harmonic load, area of distributed load and frequency. The frequency of harmonic load has an significant effect on dynamic behaviour in terms of displacement. As the frequency is increased, the effect of load amplitude is more serious. Especially, if the frequency of harmonic load exceeds 30 Hz, it is noted that the displacement by harmonic load is greater than that by step load. In case of harmonic load, the damping effect shows no certain tendency with respect to frequency of load. In details, the damping is effective when the frequency of harmonic load is 2 Hz, but there is no consistent tendency according to damping ratio. The dynamic response when the frequency of harmonic load is 3 Hz shows same result for undamped case as well as for damped case with 5% damping ratio. It is also noted that we can get the largest deflection for damped case with 1% damping ratio. However, there is not any damping effect when the frequency of harmonic load is greater than 4 Hz.