Development of polymer nano composite patterns using fused deposition modeling for rapid investment casting process

2018 ◽  
Author(s):  
Tiwary Vivek ◽  
P. Arunkumar ◽  
A. S. Deshpande ◽  
Malik Vinayak ◽  
R. M. Kulkarni ◽  
...  
Keyword(s):  
Investment Casting ◽  
Fused Deposition Modeling ◽  
Casting Process ◽  
Nano Composite ◽  
Fused Deposition ◽  
Deposition Modeling ◽  
Investment Casting Process

Investigations for Mechanical Properties of Hybrid Investment Casting: A Case Study

2014 ◽  
Vol 808 ◽  
pp. 89-95 ◽  
Author(s):  
Parlad Kumar ◽  
Rupinder Singh ◽  
I.P.S. Ahuja
Keyword(s):  
Investment Casting ◽  
Fused Deposition Modeling ◽  
Dimensional Accuracy ◽  
Casting Process ◽  
Manufacturing Processes ◽  
Biomedical Implant ◽  
Fused Deposition ◽  
Deposition Modeling ◽  
Investment Casting Process

Conventional investment casting is one of the old manufacturing processes. It involves expensive tooling for making sacrificial wax patterns to make ceramic moulds. However, with the emergence of rapid prototyping technologies, now it is possible to make and use plastic patterns instead of wax patterns along with some advantages. In this paper, plastic patterns have been prepared by using fused deposition modeling and used for investment casting process. A case study has been discussed to make a biomedical implant by the hybridization of fused deposition modeling with investment casting. Dimensional accuracy, surface finish and hardness of the casted biomedical implants have been tested and reported.

Investigations for statistically controlled investment casting solution of FDM-based ABS replicas

2014 ◽  
Vol 20 (3) ◽  
pp. 215-220 ◽  
Author(s):  
Rupinder Singh ◽  
Gurwinder Singh
Keyword(s):  
Investment Casting ◽  
Fused Deposition Modeling ◽  
Plastic Material ◽  
Dimensional Accuracy ◽  
International Standard Organization ◽  
Content Type ◽  
Fused Deposition ◽  
Deposition Modeling ◽  
Standard Organization ◽  
Measuring Machine

Purpose – The purpose of the present study is to investigate statistically controlled investment casting (IC) solution of fused deposition modeling (FDM)-based ABS replicas. Design/methodology/approach – The work started with the identification of the benchmark/component. Prototypes (to be used as pattern) were built on FDM with ABS plastic material, followed by IC. The measurements on final casting prepared were made on the co-ordinate measuring machine (CMM) from which international tolerance (IT) grades were calculated to establish the dimensional accuracy of the components. Findings – This study further highlighted the cast component properties (like hardness and surface finish) for suitability of this process. Final castings produced are acceptable as per international standard organization (ISO) standard UNI EN 20286-I (1995). Originality/value – This process ensures development of statistically controlled IC solution as technological prototypes and proof of concept at less production cost and time.

scholarly journals Investigation of Investment Casting Pattern Using Fused Deposition Modeling

2021 ◽  
pp. 201-207
Author(s):  
Kamal Ukey ◽  
Santosh Hiremath ◽  
Himadri Majumder
Keyword(s):  
Investment Casting ◽  
Fused Deposition Modeling ◽  
Low Cost ◽  
Process Time ◽  
Medium Size ◽  
Fused Deposition ◽  
Economic Climate ◽  
Deposition Modeling ◽  
Metallic Parts

In today's economic climate, various organizations fight with decreasing sales and increasing costs. However, industries that have implemented the process of investment casting are one of the ways of manufacturing complex metallic parts at a low cost. High tooling costs and long manufacturing time are associated with the metal molds production for producing investment casting wax (sacrificial) patterns. It leads to a problem with cost justification for personalized single casting or production of small lots. The present study evaluates the suitability of the fused deposition modeling (FDM) fabricated pattern for investment casting. For this, a case study on a part was also conducted to collect experimental data regarding the process. A trial component was fabricated in an FDM machine and then cast by the investment method. This research resulted in reduced process time and cost for the small and medium size of the batch.

Study on Tribological Properties of Al–Al2O3 Composites Prepared Through FDMAIC Route Using Reinforced Sacrificial Patterns

2015 ◽  
Vol 138 (2) ◽  
Author(s):  
Sunpreet Singh ◽  
Rupinder Singh
Keyword(s):  
Tribological Properties ◽  
Investment Casting ◽  
Fused Deposition Modeling ◽  
Optical Microscope ◽  
Fused Deposition ◽  
Single Screw Extruder ◽  
Deposition Modeling ◽  
D 20 ◽  
Pin On Disk ◽  
Barrel Finishing

In the present work, an attempt has been made to study the tribological properties of Al–Al2O3 composites (under dry sliding conditions) prepared via fused deposition modeling assisted investment casting (FDMAIC) route. Initially, two proportions/mixtures—nylon60%–Al30%–Al2O310% and nylon60%–Al 28%–Al2O312%—were fabricated in the form of fused deposition modeling (FDM) filament on a single screw extruder of L/D 20. Finally, the alternative filaments were used as feedstock filaments of existing FDM system for the fabrication of reinforced investment casting (IC) sacrificial patterns. The effect of process parameters (namely, filament proportion (FP), volume of reinforced FDM pattern, density of FDM pattern (DP), barrel finishing (BF) time, barrel finishing media weight (BFW), and number of IC slurry layers (NSL)) on tribological properties of Al–Al2O3 composites has been studied and optimized using Taguchi L18 OA. Tribotests were performed on pin-on-disk type tribotester at a sliding speed: 239 rpm, sliding diameter-80 mm, load-19.61 N, and time-10 min. Wear was measured both in terms of length and weight loss. Finally, the composites developed were characterized by using optical microscope, scanning electron microscope (SEM), energy dispersive spectroscopy (EDS), and X-ray diffractogram (XRD).

Aluminum metal composites primed by fused deposition modeling-assisted investment casting: Hardness, surface, wear, and dimensional properties

2021 ◽  
pp. 146442072110541
Author(s):  
Sunpreet Singh ◽  
Raman Kumar ◽  
Ranvijay Kumar ◽  
Jasgurpreet Singh Chohan ◽  
Nishant Ranjan ◽  
...  
Keyword(s):  
Investment Casting ◽  
Fused Deposition Modeling ◽  
Three Dimensional ◽  
Nylon 6 ◽  
Aluminum Matrix Composites ◽  
Matrix Composites ◽  
Wear Rates ◽  
Fused Deposition ◽  
Deposition Modeling ◽  
Barrel Finishing

Fused deposition modeling -based three-dimensional printing techniques, when merged with the investment casting process, is one of the most innovative techniques for developing functionally graded metal–matrix composites in high-performance industrial applications. In this study, Al–Al2O3 matrix composites have been prepared by the combined route of fused deposition modeling and modified investment casting processes. In the first step, the Al–Al2O3 particles have been reinforced into nylon 6 thermoplastics for the preparation of fused deposition modeling-based feedstock filaments (in two configurations: C1 (60% nylon 6–30% Al–10% Al2O3) and C2 (60% nylon 6–28% Al–12% Al2O3). In the next step, the investment casting patterns of the fused deposition modeling process of nylon 6–Al–Al2O3 composites were prepared. Furthermore, the investment casting has been performed by controlling the proportion of nylon 6–Al–Al2O3, the volume of pattern, the density of pattern, barrel finishing media weight, barrel fining time, and number of mold wall layers considering Taguchi L18-based experimental design. Finally, the functional aluminum matrix composites were subjected to testing to investigate average surface roughness ( Ra), deviation inside the cube, average wear, and average hardness. The study results have suggested that maintaining a higher proportion of Al2O3 in three-dimensional printed parts leads to higher Ra, higher dimensional deviation, and higher hardness of investment cast parts. On the contrary, solid patterns have provided low wear rates and low-density patterns resulting in increased wear rates in final investment casted products. Furthermore, the responses are optimized concurrently with the “technique for order of preference by similarity to ideal solution–Taguchi” technique while considering the analytical hierarchical process and entropy weights of significance.

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