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Prof. Dr. J. Paulo Davim
Department of Mechanical Engineering, University of Aveiro, Campus Santiago, 3810-193 Aveiro, Portugal

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0 Machining
0 Materials
0 Tribology
0 sustainable manufacturing

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sustainable manufacturing

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Original paper
Published: 02 June 2021 in Polymer Bulletin
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Effect of organoclays on the mechanical properties of glass-epoxy nanocomposites at 2 wt% filler loading has been reported. Organoclays were dispersed by ultrasonication method and nanocomposites were fabricated using hand layup technique. X-ray diffraction, scanning electron microscopy, tensile and flexural tests were conducted to evaluate mechanical properties of nanocomposites as per ASTM standards. The experimental results showed that void content was found to be in the control limit. The d-spacing between the clay platelets was increased significantly. G-E + NC-III nanocomposite showed 13% and 29% improvement in ultimate tensile strength and flexural strength, respectively, when compared with G-E + NC-00 composite. Fractured surface of the G-E + NC-III nanocomposite depicted the extensively uneven, very rough, coarse and residue of epoxy. Very clean, deeper shear lip and significant resin/fiber cracking, microvoids, nanoclay agglomeration were observed in G-E + NC-00 and G-E + NC-V composites, respectively. Overall, performance of nanocomposites was increased by the addition of organoclay.

ACS Style

A. R. Annappa; S. Basavarajappa; J. Paulo Davim. Effect of organoclays on mechanical properties of glass fiber-reinforced epoxy nanocomposite. Polymer Bulletin 2021, 1 -19.

AMA Style

A. R. Annappa, S. Basavarajappa, J. Paulo Davim. Effect of organoclays on mechanical properties of glass fiber-reinforced epoxy nanocomposite. Polymer Bulletin. 2021; ():1-19.

Chicago/Turabian Style

A. R. Annappa; S. Basavarajappa; J. Paulo Davim. 2021. "Effect of organoclays on mechanical properties of glass fiber-reinforced epoxy nanocomposite." Polymer Bulletin , no. : 1-19.

Journal article
Published: 20 February 2021 in Wear
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Mechanical drilling of carbon fiber reinforced polymers (CFRPs) has been notoriously difficult due to the high abrasiveness of reinforcing fibers and the anisotropic behavior of the constituents leading to poor hole quality and rapid tool wear. Special drills featured by novel geometrical designs have been proved as a promising alternative to conventional twist drills for the machining improvement of these fibrous composites due to their capability to suppress delamination formation and ensure superior surface quality. The present work aims to address the wear characteristics of two types of special tools including a candlestick drill and a step drill when machining CFRPs. The novelty of the current work lies in identifying the underlying mechanisms controlling the wear development of the special tools and in quantifying their wear effects on the composite machining responses such as delamination extents, hole wall morphologies, and dimensional accuracy. Progressive abrasion wear is confirmed as the dominant wear pattern for both drills, while premature microchipping occurs for the step drill even after the tool makes only few composite holes. For both tools, the drill edge segments residing close to the tool periphery basically undergo the most severe abrasion wear due to the highest instantaneous cutting speed involved. The results discussed in this paper highlight the effectiveness of the functionally-designed tool geometries in improving the wear resistance of drill bits and emphasize the vital role of the tool wear in affecting the composite machinability.

ACS Style

Jinyang Xu; Tieyu Lin; J. Paulo Davim; Ming Chen; Mohamed El Mansori. Wear behavior of special tools in the drilling of CFRP composite laminates. Wear 2021, 476, 203738 .

AMA Style

Jinyang Xu, Tieyu Lin, J. Paulo Davim, Ming Chen, Mohamed El Mansori. Wear behavior of special tools in the drilling of CFRP composite laminates. Wear. 2021; 476 ():203738.

Chicago/Turabian Style

Jinyang Xu; Tieyu Lin; J. Paulo Davim; Ming Chen; Mohamed El Mansori. 2021. "Wear behavior of special tools in the drilling of CFRP composite laminates." Wear 476, no. : 203738.

Journal article
Published: 18 November 2020 in Metals
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Magnesium alloys are used in the aeronautical sector due to their excellent strength/weight ratios, motivated by the reduction of weight that their use entails. In this sector, drilling is one of the most common operations, if not the most, due to the large number of holes that are used in joining processes, mainly by riveting. The appearance of cracks is a risk to the structural safety of the components, such that it is necessary to regularly check them for maintenance and/or repair tasks. The present study tries to determine the optimization of the characteristics of the twist drills, which are re-sharpened successively to restore the cutting edge after use, as well as the operating parameters in machining. For this purpose, a full factorial experimental design was established, analyzing through the analysis of the variance (ANOVA) the response variables. Surface integrity was considered to carry out a global vision of the quality obtained, covering as response variables the surface roughness, the size of the burrs and the modification of the hardness produced, in addition to a topological characterization by optical means of machined surfaces. The main conclusion is that it is possible that the geometric optimization of the tools and the operating parameters considered in this study in drilling processes allow them to be performed, while maintaining quality and environmental requirements, and at the same time, maximize the productivity of operations.

ACS Style

Fernando Berzosa; Eva María Rubio; Beatriz De Agustina; J. Paulo Davim. Geometric Optimization of Drills Used to Repair Holes in Magnesium Aeronautical Components. Metals 2020, 10, 1534 .

AMA Style

Fernando Berzosa, Eva María Rubio, Beatriz De Agustina, J. Paulo Davim. Geometric Optimization of Drills Used to Repair Holes in Magnesium Aeronautical Components. Metals. 2020; 10 (11):1534.

Chicago/Turabian Style

Fernando Berzosa; Eva María Rubio; Beatriz De Agustina; J. Paulo Davim. 2020. "Geometric Optimization of Drills Used to Repair Holes in Magnesium Aeronautical Components." Metals 10, no. 11: 1534.

Research article mechanical engineering
Published: 17 November 2020 in Arabian Journal for Science and Engineering
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In the manufacturing of a medical device may occur the need to make a hole with a specific function. Among current methods, conventional drilling (CD) referred in this work as drilling (D) and helical milling (HM) are two options with different potential. When making the hole, it is important to choose the most suitable method to obtain the desired geometry and ensure the functionality of the device. This work aims to analyze surface parameters such as arithmetic average height (Ra), the maximum height of the profile (Rt), the average peak to valley height (RzDIN), chip formation and the geometric deviation of holes obtained by the previously referred manufacturing processes. The specimens, with cylindrical geometry, were made of titanium alloys, Ti-6Al-4V and Ti-6Al-7Nb, currently used in the manufacture of medical devices. For this purpose, holes were made in a machining center with different feed rates (F) for both methods and in the value of vertical step (ap) in HM. The results obtained demonstrate that at lower F and ap, HM presents better results. The Ti-6Al-7Nb alloy presents better roughness results compared to Ti-6Al-4V, validating it as a material able to be used in medical devices according to the fact that a lower roughness is associated with higher corrosion resistance and fewer fatigue problems derived from it in components. By the work carried out, it can be concluded that the roughness values obtained in HM are lower than those obtained by D making HM as a better option in hole making.

ACS Style

A. J. Festas; R. B. Pereira; A. Ramos; J. P. Davim. A Study of the Effect of Conventional Drilling and Helical Milling in Surface Quality in Titanium Ti-6Al-4V and Ti-6AL-7Nb Alloys for Medical Applications. Arabian Journal for Science and Engineering 2020, 46, 2361 -2369.

AMA Style

A. J. Festas, R. B. Pereira, A. Ramos, J. P. Davim. A Study of the Effect of Conventional Drilling and Helical Milling in Surface Quality in Titanium Ti-6Al-4V and Ti-6AL-7Nb Alloys for Medical Applications. Arabian Journal for Science and Engineering. 2020; 46 (3):2361-2369.

Chicago/Turabian Style

A. J. Festas; R. B. Pereira; A. Ramos; J. P. Davim. 2020. "A Study of the Effect of Conventional Drilling and Helical Milling in Surface Quality in Titanium Ti-6Al-4V and Ti-6AL-7Nb Alloys for Medical Applications." Arabian Journal for Science and Engineering 46, no. 3: 2361-2369.

Journal article
Published: 28 October 2020 in Metals
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Cold forged parts are mainly employed in automotive and aerospace assemblies, and strength plays an essential role in such applications. Backward extrusion is one such process in cold forging for the production of axisymmetrical cup-like parts, which is affected by a number of variables that influence the quality of the products. The study on the influencing parameters becomes necessary as the complexity of the part increases. The present paper focuses on the use of a multi-layered feed forward artificial neural network (ANN) model for determining the effects of process parameters such as billet size, reduction ratio, punch angle, and land height on forming behavior, namely, effective stress, strain, strain rate, and punch force in a cold forging backward extrusion process for AISI 1010 steel. Full factorial design (FFD) has been employed to plan the finite element (FE) simulations and accordingly, the input variables and response patterns are obtained for training from these FE simulations. This ANN model-based analysis reveals that the forming behavior of the cold forging backward extrusion process tends to increase with the billet size as well as the reduction ratios. However, decreases in punch angle and land height lead to the reduction of punch forces, which in turn enhances the punch life. FE simulation along with the developed ANN model scheme would benefit the cold forging industry in minimizing the process development effort in terms of cost and time.

ACS Style

Praveenkumar Petkar; V. Gaitonde; S. Karnik; Vinayak Kulkarni; T Raju; J. Davim. Analysis of Forming Behavior in Cold Forging of AISI 1010 Steel Using Artificial Neural Network. Metals 2020, 10, 1431 .

AMA Style

Praveenkumar Petkar, V. Gaitonde, S. Karnik, Vinayak Kulkarni, T Raju, J. Davim. Analysis of Forming Behavior in Cold Forging of AISI 1010 Steel Using Artificial Neural Network. Metals. 2020; 10 (11):1431.

Chicago/Turabian Style

Praveenkumar Petkar; V. Gaitonde; S. Karnik; Vinayak Kulkarni; T Raju; J. Davim. 2020. "Analysis of Forming Behavior in Cold Forging of AISI 1010 Steel Using Artificial Neural Network." Metals 10, no. 11: 1431.

Original paper
Published: 17 October 2020 in Silicon
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In this study, diamond-like Carbon (DLC) thin film coatings are deposited by atmospheric pressure chemical vapour deposition (APCVD) process by using C2H2 and H2 as precursor gases on SiO2 substrates. The morphological, structural, mechanical and composition of the DLC thin film coatings are studied by using field emission scanning electron microscopy (FESEM), Raman spectroscopy, nanoindentation, Fourier-transform infrared spectroscopy (FTIR) and X-ray photoelectron spectroscopy (XPS). Irrespective of the varying H2 flow rate, smooth surfaces of the thin film coatings are observed in the FESEM images. The Young’s modulus (E) and hardness (H) of the DLC coating increases with an increase in H2 flow rate and the maximum E and H are observed as 193.97 GPa and 22.46 GPa respectively. Due to the SiO2 buffer layer, the residual stress (σ) of the film significantly decreased to a minimum of 1.05 GPa which is much less as compared to the DLC film deposited over the Si substrate. The percentage of sp3 can be calculated from the XPS and it is 58.68% and 70% for the flow rate of H2 of 0 and 80 sccm respectively. The effect of H2 flow rate on the morphology, structural, mechanical and composition of the DLC thin film coatings are analyzed and discussed thoroughly along with mechanics behind it.

ACS Style

Ranjan Kumar Ghadai; Soham Das; Kanak Kalita; Bibhu Prasad Swain; João Paulo Davim. Structural and Mechanical Analysis of APCVD Deposited Diamond-Like Carbon Thin Films. Silicon 2020, 1 -10.

AMA Style

Ranjan Kumar Ghadai, Soham Das, Kanak Kalita, Bibhu Prasad Swain, João Paulo Davim. Structural and Mechanical Analysis of APCVD Deposited Diamond-Like Carbon Thin Films. Silicon. 2020; ():1-10.

Chicago/Turabian Style

Ranjan Kumar Ghadai; Soham Das; Kanak Kalita; Bibhu Prasad Swain; João Paulo Davim. 2020. "Structural and Mechanical Analysis of APCVD Deposited Diamond-Like Carbon Thin Films." Silicon , no. : 1-10.

Chapter
Published: 16 May 2020 in Management and Industrial Engineering
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Environmental impact of the industries has been one of the primary concerns of the society today due to increased carbon emission and non-sustainability in their open-end supply chain systems. Closed-loop supply chain system (CLSC) is an improved system often suggested by researchers to enhance sustainability and lower environmental degradation by closing the loop of the product lifecycle and encouraging product returns and other green activities. The concept was strengthened by the introduction of various policies and regulations by the government for the sake of maintaining the health of the environment. In this paper, a thorough investigation of the CLSC system and categories/groups of factors influencing the optimal parameters of a CLSC system have been reported. Modelling of CLSC strategies involves different uncertainty problems which are required to be solved using different mathematical models. These uncertainty problems are governed by the varying numbers assigned to the uncertainty factors. This paper gives an account of various modelling methods and solution strategies commonly used in the research of CLSC systems for solving the uncertainty problems and analyze different aspects of the practical system for an optimized supply chain system.

ACS Style

Hridayjit Kalita; Kaushik Kumar; J. Paulo Davim. Classification of Factors Associated with a Closed-Loop Supply Chain System, Their Modelling Methods and Strategies. Management and Industrial Engineering 2020, 19 -35.

AMA Style

Hridayjit Kalita, Kaushik Kumar, J. Paulo Davim. Classification of Factors Associated with a Closed-Loop Supply Chain System, Their Modelling Methods and Strategies. Management and Industrial Engineering. 2020; ():19-35.

Chicago/Turabian Style

Hridayjit Kalita; Kaushik Kumar; J. Paulo Davim. 2020. "Classification of Factors Associated with a Closed-Loop Supply Chain System, Their Modelling Methods and Strategies." Management and Industrial Engineering , no. : 19-35.

Journal article
Published: 09 May 2020 in Materials
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NiTiNOL (Nickel–Titanium) shape memory alloys (SMAs) are ideal replacements for titanium alloys used in bio-medical applications because of their superior properties like shape memory and super elasticity. The machining of NiTiNOL alloy is challenging, as it is a difficult to cut material. Hence, in the current research the experimental studies on machinability aspects of medical grade NiTiNOL SMA during wire electric discharge machining (WEDM) using zinc coated brass wire as electrode material have been carried out. Pulse time (Ton), pause time (Toff), wire feed (WF), and servo voltage (SV) are chosen as varying input process variables and the effects of their combinational values on output responses such as surface roughness (SR), material removal rate (MRR), and tool wear rate (TWR) are studied through response surface methodology (RSM) based developed models. Modified differential evolution (MDE) optimization technique has been developed and the convergence curve of the same has been compared with the results of differential evolution (DE) technique. Scanning electron microscopy (SEM) and energy dispersive X-ray spectrography (EDS) analysis are carried out to study the surface morphology of the machined alloy. SV is found to be more influential process parameter for achieving better MRR with minimal SR and TWR, followed by Ton, Toff, and WF. The WF has good impact on reduced SR and TWR responses and found to be least significant in maximizing MRR.

ACS Style

Vinayak N. Kulkarni; V. N. Gaitonde; S. R. Karnik; M. Manjaiah; J. Paulo Davim. Machinability Analysis and Optimization in Wire EDM of Medical Grade NiTiNOL Memory Alloy. Materials 2020, 13, 2184 .

AMA Style

Vinayak N. Kulkarni, V. N. Gaitonde, S. R. Karnik, M. Manjaiah, J. Paulo Davim. Machinability Analysis and Optimization in Wire EDM of Medical Grade NiTiNOL Memory Alloy. Materials. 2020; 13 (9):2184.

Chicago/Turabian Style

Vinayak N. Kulkarni; V. N. Gaitonde; S. R. Karnik; M. Manjaiah; J. Paulo Davim. 2020. "Machinability Analysis and Optimization in Wire EDM of Medical Grade NiTiNOL Memory Alloy." Materials 13, no. 9: 2184.

Chapter
Published: 19 February 2020 in Management and Industrial Engineering
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Sheet Metal tool allows the designer to quickly create sheet metal part designs using simple design process and helps on saving time and development costs and increases productivity.

ACS Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. Introduction to Sheet Metal. Management and Industrial Engineering 2020, 187 -204.

AMA Style

Kaushik Kumar, Divya Zindani, J. Paulo Davim. Introduction to Sheet Metal. Management and Industrial Engineering. 2020; ():187-204.

Chicago/Turabian Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. 2020. "Introduction to Sheet Metal." Management and Industrial Engineering , no. : 187-204.

Chapter
Published: 19 February 2020 in Management and Industrial Engineering
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The present chapter is similar to earlier chapter and the steps are also similar. The various steps are provided in the figures below.

ACS Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. To Create a Foot Step Bearing. Management and Industrial Engineering 2020, 287 -316.

AMA Style

Kaushik Kumar, Divya Zindani, J. Paulo Davim. To Create a Foot Step Bearing. Management and Industrial Engineering. 2020; ():287-316.

Chicago/Turabian Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. 2020. "To Create a Foot Step Bearing." Management and Industrial Engineering , no. : 287-316.

Chapter
Published: 19 February 2020 in Management and Industrial Engineering
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At the end of this chapter, one will be able to know briefly about different features using cuts like Extruded Cut, Hole Wizard, Revolved Cut, Swept Cut, Lofted Cut, and Boundary Cut. Cutting or creating a hole in the sketch model is done with the help of the features stated. Once the two main Boss features like Extruded Boss/Base and Revolved Boss/Base gets completed creation of a cut is done to represent the removal of material. Cut features are created in the same way as boss/base features get created.

ACS Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. Features Including Cuts. Management and Industrial Engineering 2020, 141 -169.

AMA Style

Kaushik Kumar, Divya Zindani, J. Paulo Davim. Features Including Cuts. Management and Industrial Engineering. 2020; ():141-169.

Chicago/Turabian Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. 2020. "Features Including Cuts." Management and Industrial Engineering , no. : 141-169.

Chapter
Published: 19 February 2020 in Management and Industrial Engineering
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Assembly is a universal joint made by combining individual components or parts. There are number of stages in the assembly process.

ACS Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. Assembly. Management and Industrial Engineering 2020, 227 -238.

AMA Style

Kaushik Kumar, Divya Zindani, J. Paulo Davim. Assembly. Management and Industrial Engineering. 2020; ():227-238.

Chicago/Turabian Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. 2020. "Assembly." Management and Industrial Engineering , no. : 227-238.

Chapter
Published: 19 February 2020 in Management and Industrial Engineering
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In this chapter, we will be dealing with features including Fillet, Pattern, Rib, Shell, Draft, Intersect, and Wrap. After completion of part design, some more features have been included to do the required modifications in design with the help of above-said features. We will be discussing each with an example to make it clear how it works and how the user can create different part designs.

ACS Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. Thin Features. Management and Industrial Engineering 2020, 171 -186.

AMA Style

Kaushik Kumar, Divya Zindani, J. Paulo Davim. Thin Features. Management and Industrial Engineering. 2020; ():171-186.

Chicago/Turabian Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. 2020. "Thin Features." Management and Industrial Engineering , no. : 171-186.

Chapter
Published: 19 February 2020 in Management and Industrial Engineering
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After successful completion of the chapter, the user will be able to design a new part using sketching tools like line, rectangle, circle, parallelogram, arc, and spline. In this chapter, we will be dealing with various types of sketching tools with the help of step-by-step tutorial using figures of the software.

ACS Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. Introduction to Sketching. Management and Industrial Engineering 2020, 31 -66.

AMA Style

Kaushik Kumar, Divya Zindani, J. Paulo Davim. Introduction to Sketching. Management and Industrial Engineering. 2020; ():31-66.

Chicago/Turabian Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. 2020. "Introduction to Sketching." Management and Industrial Engineering , no. : 31-66.

Chapter
Published: 19 February 2020 in Management and Industrial Engineering
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An individual can utilize graphic language as effective method for communications with others for passing on ideas and information on specialized issues. However, for compelling trade of ideas and information with others, the engineer must have capability in (i) dialect, both composed and oral, (ii) images and symbols related with fundamental sciences, and (iii) the graphic language. Engineering drawing is a reasonable graphic language from which any trained individual can visualize the required object. As engineering drawing shows the correct picture of an object, it clearly passes on similar ideas to each trained eye.

ACS Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. Introduction. Management and Industrial Engineering 2020, 1 -29.

AMA Style

Kaushik Kumar, Divya Zindani, J. Paulo Davim. Introduction. Management and Industrial Engineering. 2020; ():1-29.

Chicago/Turabian Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. 2020. "Introduction." Management and Industrial Engineering , no. : 1-29.

Chapter
Published: 19 February 2020 in Management and Industrial Engineering
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In the last chapter, assembly was done for a circular component utilizing the centerline which takes care of dimensions with reference to both x-axis and y-axis. In this chapter, a non-circular component would be assembled wherein distances from both the axes have to be defined. The procedure is as described below.

ACS Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. Assembly Continued. Management and Industrial Engineering 2020, 239 -250.

AMA Style

Kaushik Kumar, Divya Zindani, J. Paulo Davim. Assembly Continued. Management and Industrial Engineering. 2020; ():239-250.

Chicago/Turabian Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. 2020. "Assembly Continued." Management and Industrial Engineering , no. : 239-250.

Chapter
Published: 19 February 2020 in Management and Industrial Engineering
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Drawing consists of one or more views generated from a part or assembly. A part or assembly is saved before creating its associated drawing. To create a drawing follows the given steps.

ACS Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. Basics of Drawing. Management and Industrial Engineering 2020, 251 -259.

AMA Style

Kaushik Kumar, Divya Zindani, J. Paulo Davim. Basics of Drawing. Management and Industrial Engineering. 2020; ():251-259.

Chicago/Turabian Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. 2020. "Basics of Drawing." Management and Industrial Engineering , no. : 251-259.

Chapter
Published: 19 February 2020 in Management and Industrial Engineering
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This chapter will cover the basic automatic sketch relations, sketch feedback, turning off tools which will also include the status of the sketch while designing a part or a model. It will also include examples of sketch relations and rules that govern the sketch designs.

ACS Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. Basic Sketch Relations and Dimensioning. Management and Industrial Engineering 2020, 67 -91.

AMA Style

Kaushik Kumar, Divya Zindani, J. Paulo Davim. Basic Sketch Relations and Dimensioning. Management and Industrial Engineering. 2020; ():67-91.

Chicago/Turabian Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. 2020. "Basic Sketch Relations and Dimensioning." Management and Industrial Engineering , no. : 67-91.

Chapter
Published: 19 February 2020 in Management and Industrial Engineering
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The present chapter is about creation of an assembly drawing of an engineering component from scratch. It is basically the summation of all the previous chapters.

ACS Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. To Create a Flanged Coupling. Management and Industrial Engineering 2020, 261 -286.

AMA Style

Kaushik Kumar, Divya Zindani, J. Paulo Davim. To Create a Flanged Coupling. Management and Industrial Engineering. 2020; ():261-286.

Chicago/Turabian Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. 2020. "To Create a Flanged Coupling." Management and Industrial Engineering , no. : 261-286.

Chapter
Published: 19 February 2020 in Management and Industrial Engineering
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In this chapter, some of the advanced features of sheet metal operations are used which helps in addition of two bends, curling of the edges, attachment of two edges with help of gusset and also of creating gap between the edges. All the above said can be done in sheet metal which is discussed one by one in this chapter. Some of the features are jog, hem, sketched bend, Rip, sheet metal gusset and sketched bend.

ACS Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. Advanced Features in Sheet Metal. Management and Industrial Engineering 2020, 205 -226.

AMA Style

Kaushik Kumar, Divya Zindani, J. Paulo Davim. Advanced Features in Sheet Metal. Management and Industrial Engineering. 2020; ():205-226.

Chicago/Turabian Style

Kaushik Kumar; Divya Zindani; J. Paulo Davim. 2020. "Advanced Features in Sheet Metal." Management and Industrial Engineering , no. : 205-226.