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SOME MASTER PROJECTS ON 3D MASTER SCAN

INTRODUCTION OF 3D SCANNING TECHNOLOGY & 3D INK

Project: Applying Scan3D technology in designing and QC manufacturing mechanical parts in the automobile:

PROVISION OF QC SERVICES, QUALITY CONTROL OF SAMPLE,

Steps taken:

Sample standard: Remove, clean sample

2- Analysis of sample design: 1h

3- Scan 3D model: 1h / sample

4- Setting up 3D output: 3h / sample

SCAN 3D FPT

Project: Applying Scan3D technology in surface design and QC, aerodynamic analysis at railway station at Hanoi Railway Station

PROVISION OF QC SERVICES, QUALITY CONTROL OF SAMPLE,

Steps taken:

1- Sample standard

2- Analysis of sample design: 1h

3- Scan 3D model: 1.2 days / sample

4- Set up 3D output

 Project: Application of Scan3D reverse engineering technology in Tanks

Steps taken:

Sample standard: Remove, clean sample

2- Analysis of sample design: 3h

3- Scan 3D model: 0.5 days

4- Reverse 3D file output: 3 days

Project: Scan3D reverse engineering and QC testing in Hai Phong

Motor block implementation steps:

Sample standard: Remove, clean sample

2- Sample design analysis: 1 day

3- Scan 3D model: 3 days

4- Set 3D file export reversal: 5 days

Project: Applying Scan3D technology to reverse engineer Honda motorbike and make QC for mold testing

Steps taken:

Sample standard: Remove, clean sample

2- Sample design analysis: 1 day

3- Scan 3D model: 2 days / 4 samples

4- Reverse 3D file export: 5 days

Project: Applying Scan3D technology in QC production & 3D measurement accuracy

PROVISION OF QC SERVICES, QUALITY CONTROL OF SAMPLE,

Steps taken:

Sample standard: Remove, clean sample

2- Analysis of sample design: 10ph

3- Scan 3D model: 5- 30ph

4- Export QC evaluation chart, QC zig, QC fixture: 5ph

QC khuôn

Project: Applying Scan3D technology to measure ceramic warping curvature

Surface warping, cross section error, point error with SCAN3D technology solutions from MASTER 3D LTD.

Project: Scan3D Digital 3D digitized pump sample library, giant propeller pattern

Project: Application of Scan3D reverse engineering technology, QC frame in Oto Here at the scientific research study after post-crash deformation

Detailed body shell steps:

Sample standard: Remove, clean sample

2- Analysis of sample design: 1h

3- Scan 3D shell (stem): 1 day

4- Reverse 3D file export: 2 days

Steps to implement frame details:

Sample standard: Remove, clean sample

2- Analysis of sample design: 1h

3- Scan 3D frame model: 3 days

4- Reverse 3D file output: 3 days

Project: Applying Scan3D technology in sample copying and copper casting

Steps taken:

Sample standard: Remove, clean sample

2- Analysis of sample design: 5ph

3- Scan 3D model: 2h

Project: Application of Scan3D reverse engineering technology in ships

Steps taken:

Sample standard: Remove, clean sample

2- Analysis of sample design: 1h

3- Scan 3D model: 1 day

4- Reverse 3D file export: 2 days

Project: Application of Scan3D reverse engineering technology in Aircraft

Steps taken:

Sample standard: Remove, clean sample

2- Analysis of sample design: 4h

3- Scan 3D wing pattern: 1 day

Scan template: 1.5 days

4- Reverse 3D file output: 2 days / sample

Project: Applying Scan3D technology to reverse CAM axis design

Steps taken:

Sample standard: Remove, clean sample

2- Analysis of sample design: 1 ph

3- Scan 3D model: 1h

4- Reverse 3D file output: 2h

Project: Applying Scan3D technology in reverse engineered chassis, electric bicycle

Steps taken:

Sample standard: Remove, clean sample

2- Analysis of sample design: 1h

3- Scan 3D model: 0.5 day / frame template

4- Reverse 3D file output: 1 day

Project: Applying Scan3D technology in medical at hospital

Steps taken:

Sample standard: Remove, clean sample

2- Sample design analysis: 1 day

3- Scan 3D model: 5ph

4- Reverse 3D file output: 1 day

Project: Implementing Scan3D reverse engineering technology in Oto

Steps to perform a 3d car dump scan:

Sample standard: Remove, clean sample

2- Analysis of sample design: 1h

3- Scan 3D model: 0.5 days

4- Reverse 3D file output: 1 day

Motor block implementation steps:

Sample standard: Remove, clean sample

2- Analysis of sample design: 1h

3- Scan 3D model: 0.5 days

4- Reverse 3D file export: 2 days

Project: Applying Scan3D technology in Mandala relief

At Tay Thien Pagoda

Steps taken:

Sample standard: Remove, clean sample

2- Analysis of sample design: 1h

3- Scan 3D model: 2h

4- Set 3D file export reversal: 1 day

5- Sample production: 3 days

Application of Scan3D technology in the preparation of 300-year-old Turtles At the Institute of Prehistory of Southeast Asia

Steps taken:

Sample Preparation: Clean the sample

2- Sample analysis: 30ph

3- Scan 3D model: 3.5h

4. CNC machining: 4 days

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