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3D Modelling CAD/CAM Fusion 360 Product Design Solidworks
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$30 USD / час
Флаг EGYPT
suez, egypt
$30 USD / час
Сейчас здесь 2:59 AM
На сайте с апреля 25, 2022
0 Рекомендации

Omar R.

@omarr22ft

monthly-level-three.svg
5,0 (6 отзывов(-а))
3,6
3,6
$30 USD / час
Флаг EGYPT
suez, egypt
$30 USD / час
100 %
Завершенных работ
63 %
В рамках бюджета
100 %
Своевременно
20 %
Рейтинг повторного найма

Industrial Designer | Mechanical Design Engineer

⭐ Professional Industrial Designer with over 3 years of experience in product design, mechanical engineering design, and implementation. ⭐ Proficient in dominant software tools such as SOLIDWORKS, Autodesk Fusion 360, Autodesk Inventor, and Autodesk AutoCAD. Upwork GrabCAD Account [login to view URL] I transform ideas into compelling products that will exponentially grow your business. Services include: ⚙️ Creating 3D models and mechanical designs. ⚙️ Creating 2D drawings, drafting, and documentation. ⚙️ Transforming 2D drawings to 3D models. ⚙️ Making stress analysis FEA, simulation, motion studies, and renders. ⚙️ Making design reports. ⚙️ Creating STL, IGES, and STEP files for 3D printing. ⚙️ Creating DXF files for Laser and Plasma cutting. ⚙️ Creating flat patterns for sheet metal. I accept offers that I'm certainly able to finish perfectly, so once you hire me you won't waste your time. Feel free to contact me in chat I'll answer all your questions. YOU ARE ALWAYS WELCOME ANYTIME.
Freelancer 3D Modellers Egypt

Свяжитесь с Omar R. по поводу вашей работы

Авторизуйтесь для обсуждения любых деталей в чате.

Элементы портфолио

The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
The client needed an actual product of FLEX-RUN blade that could be manufactured and realized to the market and validate the FEA.

My contribution
I gathered all the information about the product idea and the problem it solves. Through brainstorming, market research, creative concepts, experimentation, and evaluation I design a new one from scratch and made Finite Element Analysis FEA to validate the feasibility of the design. Finally provide it with all detailed render of the presentation.

You can discover the 3D Model using this link
https://a360.co/3G74PB9
FLEX-RUN BK PROSTHESIS
It is a comparison between different materials of the
blade and also carbon fiber FEA to validate the feasibility of the design.
FEA for the FLEX-RUN Blade
It is a comparison between different materials of the
blade and also carbon fiber FEA to validate the feasibility of the design.
FEA for the FLEX-RUN Blade
It is a comparison between different materials of the
blade and also carbon fiber FEA to validate the feasibility of the design.
FEA for the FLEX-RUN Blade
It is a comparison between different materials of the
blade and also carbon fiber FEA to validate the feasibility of the design.
FEA for the FLEX-RUN Blade
It is a comparison between different materials of the
blade and also carbon fiber FEA to validate the feasibility of the design.
FEA for the FLEX-RUN Blade
It is a comparison between different materials of the
blade and also carbon fiber FEA to validate the feasibility of the design.
FEA for the FLEX-RUN Blade
It is a comparison between different materials of the
blade and also carbon fiber FEA to validate the feasibility of the design.
FEA for the FLEX-RUN Blade
The video was made for a mechanical engineering lecture and was exported using Solidworks motion study.

You can see the 3D Files here:
 https://grabcad.com/library/windshield-wiper-mechanism-explanation-video-1
Windshield Wiper Mechanism Explanation Video
The video was made for a mechanical engineering lecture and was exported using Solidworks motion study.

You can see the 3D Files here:
 https://grabcad.com/library/windshield-wiper-mechanism-explanation-video-1
Windshield Wiper Mechanism Explanation Video
You can see the 3D model by hitting this link:
 https://a360.co/384QJAo
https://grabcad.com/library/sumobot-11

The sumo robot was designed for a nationwide competition on behalf of IEEE Suez university SB.
The robot was designed from scratch using Fusion 360.
Sumobot
You can see the 3D model by hitting this link:
 https://a360.co/384QJAo
https://grabcad.com/library/sumobot-11

The sumo robot was designed for a nationwide competition on behalf of IEEE Suez university SB.
The robot was designed from scratch using Fusion 360.
Sumobot
You can see the 3D model by hitting this link:
 https://a360.co/384QJAo
https://grabcad.com/library/sumobot-11

The sumo robot was designed for a nationwide competition on behalf of IEEE Suez university SB.
The robot was designed from scratch using Fusion 360.
Sumobot
You can see the 3D model by hitting this link:
 https://a360.co/384QJAo
https://grabcad.com/library/sumobot-11

The sumo robot was designed for a nationwide competition on behalf of IEEE Suez university SB.
The robot was designed from scratch using Fusion 360.
Sumobot
You can see the 3D model by hitting this link:
 https://a360.co/384QJAo
https://grabcad.com/library/sumobot-11

The sumo robot was designed for a nationwide competition on behalf of IEEE Suez university SB.
The robot was designed from scratch using Fusion 360.
Sumobot
You can see the 3D model by hitting this link:
 https://a360.co/384QJAo
https://grabcad.com/library/sumobot-11

The sumo robot was designed for a nationwide competition on behalf of IEEE Suez university SB.
The robot was designed from scratch using Fusion 360.
Sumobot
You can see the 3D model by hitting this link:
 https://a360.co/384QJAo
https://grabcad.com/library/sumobot-11

The sumo robot was designed for a nationwide competition on behalf of IEEE Suez university SB.
The robot was designed from scratch using Fusion 360.
Sumobot
You can see the 3D model by hitting this link:
 https://a360.co/384QJAo
https://grabcad.com/library/sumobot-11

The sumo robot was designed for a nationwide competition on behalf of IEEE Suez university SB.
The robot was designed from scratch using Fusion 360.
Sumobot
You can see the 3D model by hitting this link:
 https://a360.co/384QJAo
https://grabcad.com/library/sumobot-11

The sumo robot was designed for a nationwide competition on behalf of IEEE Suez university SB.
The robot was designed from scratch using Fusion 360.
Sumobot
You can see the 3D model by hitting this link:
 https://a360.co/384QJAo
https://grabcad.com/library/sumobot-11

The sumo robot was designed for a nationwide competition on behalf of IEEE Suez university SB.
The robot was designed from scratch using Fusion 360.
Sumobot
You can see the 3D model by hitting this link:
 https://a360.co/384QJAo
https://grabcad.com/library/sumobot-11

The sumo robot was designed for a nationwide competition on behalf of IEEE Suez university SB.
The robot was designed from scratch using Fusion 360.
Sumobot
You can see the 3D model by hitting this link:
 https://a360.co/384QJAo
https://grabcad.com/library/sumobot-11

The sumo robot was designed for a nationwide competition on behalf of IEEE Suez university SB.
The robot was designed from scratch using Fusion 360.
Sumobot
You can see the 3D model by hitting this link:
 https://a360.co/384QJAo
https://grabcad.com/library/sumobot-11

The sumo robot was designed for a nationwide competition on behalf of IEEE Suez university SB.
The robot was designed from scratch using Fusion 360.
Sumobot
You can see the 3D model by hitting this link:
 https://a360.co/384QJAo
https://grabcad.com/library/sumobot-11

The sumo robot was designed for a nationwide competition on behalf of IEEE Suez university SB.
The robot was designed from scratch using Fusion 360.
Sumobot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
Won The Best Mechanical Design in 2022 Academia Minesweepers International Competition.

You can see the 3D model by hitting this link: 
https://a360.co/3NlGJG4
https://grabcad.com/library/minesweepers-robot-1

Renders are made using Fusion 360.

The robot was designed to participate in the minesweepers international competition in the academia category on behalf of IEEE Suez university SB.
( https://landminefree.org/)
The robot was designed from scratch using Fusion 360 as sheet metals then manufacturing processes come, at first the sheet metals were cut in a laser cutter, bent at specified angles in a bending machine, coated, and finally assembled using bolts and nuts.
Minesweepers Robot
The vice was designed using Autodesk Inventor and rendered using Fusion 360.

You can see the 3D Files here:
https://grabcad.com/library/bench-vice-239

It was designed for an educational purpose to show the components of the assembly in detail.
BENCH VICE
The vice was designed using Autodesk Inventor and rendered using Fusion 360.

You can see the 3D Files here:
https://grabcad.com/library/bench-vice-239

It was designed for an educational purpose to show the components of the assembly in detail.
BENCH VICE
The vice was designed using Autodesk Inventor and rendered using Fusion 360.

You can see the 3D Files here:
https://grabcad.com/library/bench-vice-239

It was designed for an educational purpose to show the components of the assembly in detail.
BENCH VICE
The vice was designed using Autodesk Inventor and rendered using Fusion 360.

You can see the 3D Files here:
https://grabcad.com/library/bench-vice-239

It was designed for an educational purpose to show the components of the assembly in detail.
BENCH VICE

Отзывы

Изменения сохранены
Показаны с 1 по 5 из 6 отзывов
Фильтровать отзывы по: 5,0
$300,00 CAD
Omar was extremely professional and accommodating as we iterated through the design process together. It's obvious he knows the tools required and produced a product that I will be happy with. Looking forward to 3D printing this iconic Canadian bridge.
CAD/CAM Product Design 3D Modelling Fusion 360 Autodesk Fusion 360
P
Флаг Peter B. @peterbechard
7 дней назад
5,0
$100,00 USD
Highly recommended. Very professional and great quality!
CAD/CAM Solidworks AutoCAD Product Design 3D Modelling
R
Флаг Robbie K. @rkory11
18 дней назад
4,8
$55,00 USD
Was a pleasure working with Omar, he was very calm throughout the entire process. He communicated clearly and delivered excellent quality work on time.
3D Rendering 3D Modelling Drafting Fusion 360
Аватарка пользователя
Флаг Ruan E. @ruanels081
1 месяц назад
5,0
$15,00 USD
Very kind and professional designer. We give a hand-writted plan and he design the piece in 3D with adjustments and improvments. Really awsome ! Thanks !
SketchUp 3D Modelling 3D CAD
Аватарка пользователя
Флаг Serge B. @databirdsarl
2 месяца назад
5,0
$165,00 USD
Second time i have hired Omar.R, very good work, nothing is ever a problem. All over happy with the result.
CAD/CAM Solidworks 3D Modelling 3D Design Fusion 360
P
Флаг Per N. @Per3dNOR
2 месяца назад

Опыт работы

Industrial Designer | Product Designer

Upwork
июн. 2022 - Настоящее время
My Upwork Profile https://www.upwork.com/fl/~0164ec8728decbcffb Those are just some of the feedback from my clients here on Upwork ⭐"Great work & communication. Very clear with what needed to be altered about the product design. Was supportive even after completing the job with small questions. Will hire again." ⭐"Omar impressed me with the quality of work and the presentation of the result. my project took a big step forward, way more than I anticipated"

Head of The Mechanical Team

IEEE SUSB
янв. 2020 - Настоящее время
⭐️ Led the team to win The Best Mechanical Design in 2022 Academia Minesweeper International Competition.

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3D Modelling 6 CAD/CAM 4 Fusion 360 4 Solidworks 3 Product Design 2

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