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Gost 2.301 68 2
Gost 2.301 68 2
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Gost 2.301 68 3
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Content writing company in india
Content writing company in india
Thoughtful Minds Web Services Pvt. Ltd,
This study aims to detect the trend in seasonal rainfall of four rainy months i.e. June, July, August and September. To determine the trend of rainfall, non-parametric Mann-Kendall test and non-parametric Sen’s Slope estimator for determination of magnitude of trend was used. Linear regression analysis, which is a useful parametric model used to developed functional relationships between variables was also applied to determine trend of rainfall for the study area. From all statistical test results it was indicated that there was some change in the trend of rainfall of the rainy months
Seasonal Rainfall Trend Analysis
Seasonal Rainfall Trend Analysis
IJERA Editor
The objective of this study is to improve the design of connecting rod of single cylinder four stroke Otto cycle engine by shape optimization. The main objective of this study is weight reduction of connecting rod and improving its performance without affecting its functionality. Finite element analysis is one of the most important tools of CAD/CAM CAE. For this study ANSYS analysis software is used for modeling, analysis and shape design optimization. Initially, according to design considerations maximum loads were calculated for various maximum operating loading conditions. Calculated loads used as a loading condition in various load steps of FEM analysis. Stresses generated across all the locations of connecting rod evaluated using ANSYS Workbench. For optimization ANSYS Shape optimization module is used and extracted the required shape of connecting rod. Final CAD model of optimized connecting rod is prepared in Design Modeler. Static structural analysis of modified design is performed and the results compared with baseline design. After result are validated with the help of Modified Goodman’s Diagram. From the shape optimization we could able to achieve 14.73% weight reduction in existing connecting rod. Since the optimized design is having sufficient life, the design is much improved as compared to the existing design
Finite Element Analysis and Design Optimization of Connecting Rod
Finite Element Analysis and Design Optimization of Connecting Rod
IJERA Editor
Goals 1
Goals 1
Danielle Mayo
Russian trade 1180
Russian trade 1180
vpiv26
Russian trade 1173
Russian trade 1173
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Gost 2.301 68 2
Gost 2.301 68 2
vpiv26
Gost 2.301 68 3
Gost 2.301 68 3
vpiv26
Content writing company in india
Content writing company in india
Thoughtful Minds Web Services Pvt. Ltd,
This study aims to detect the trend in seasonal rainfall of four rainy months i.e. June, July, August and September. To determine the trend of rainfall, non-parametric Mann-Kendall test and non-parametric Sen’s Slope estimator for determination of magnitude of trend was used. Linear regression analysis, which is a useful parametric model used to developed functional relationships between variables was also applied to determine trend of rainfall for the study area. From all statistical test results it was indicated that there was some change in the trend of rainfall of the rainy months
Seasonal Rainfall Trend Analysis
Seasonal Rainfall Trend Analysis
IJERA Editor
The objective of this study is to improve the design of connecting rod of single cylinder four stroke Otto cycle engine by shape optimization. The main objective of this study is weight reduction of connecting rod and improving its performance without affecting its functionality. Finite element analysis is one of the most important tools of CAD/CAM CAE. For this study ANSYS analysis software is used for modeling, analysis and shape design optimization. Initially, according to design considerations maximum loads were calculated for various maximum operating loading conditions. Calculated loads used as a loading condition in various load steps of FEM analysis. Stresses generated across all the locations of connecting rod evaluated using ANSYS Workbench. For optimization ANSYS Shape optimization module is used and extracted the required shape of connecting rod. Final CAD model of optimized connecting rod is prepared in Design Modeler. Static structural analysis of modified design is performed and the results compared with baseline design. After result are validated with the help of Modified Goodman’s Diagram. From the shape optimization we could able to achieve 14.73% weight reduction in existing connecting rod. Since the optimized design is having sufficient life, the design is much improved as compared to the existing design
Finite Element Analysis and Design Optimization of Connecting Rod
Finite Element Analysis and Design Optimization of Connecting Rod
IJERA Editor
Goals 1
Goals 1
Danielle Mayo
Russian trade 1180
Russian trade 1180
vpiv26
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Russian trade 1173
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Russian trade 1171
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Russian trade 1167
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Russian export 1147
Russian export 1147
vpiv26
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Russian export 1145
vpiv26
Russian export 1144
Russian export 1144
vpiv26
Russian certificate 2158
Russian certificate 2158
vpiv26
Russian certificate 2152
Russian certificate 2152
vpiv26
Russia major industries 187
Russia major industries 187
vpiv26
Russia industrial safety 768
Russia industrial safety 768
vpiv26
Russia imports and exports 1283
Russia imports and exports 1283
vpiv26
Rostechnadzor 1166
Rostechnadzor 1166
vpiv26
Rostechnadzor 1165
Rostechnadzor 1165
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Rostechnadzor 1160
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Rostechnadzor 1158
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Rostechnadzor 1156
Rostechnadzor 1156
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Rostechnadzor 1149
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Oil and gas kazakhstan 2131
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Laws in russia 1346
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Russian trade 1171
Russian trade 1171
Russian trade 1167
Russian trade 1167
Russian export 1147
Russian export 1147
Russian export 1145
Russian export 1145
Russian export 1144
Russian export 1144
Russian certificate 2158
Russian certificate 2158
Russian certificate 2152
Russian certificate 2152
Russia major industries 187
Russia major industries 187
Russia industrial safety 768
Russia industrial safety 768
Russia imports and exports 1283
Russia imports and exports 1283
Rostechnadzor 1166
Rostechnadzor 1166
Rostechnadzor 1165
Rostechnadzor 1165
Rostechnadzor 1161
Rostechnadzor 1161
Rostechnadzor 1160
Rostechnadzor 1160
Rostechnadzor 1158
Rostechnadzor 1158
Rostechnadzor 1156
Rostechnadzor 1156
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Rostechnadzor 1149
Oil and gas kazakhstan 2131
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Gostr 1435
Gostr 1435
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