Muhammad Jawad R. Profile | Freelancer

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$35 USD / час

rawalpindi,

$35 USD / час

Сейчас здесь 5:24 PM

На сайте с июля 17, 2018

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Muhammad Jawad R.

@jawadofficial

4,8

(42 отзывов(-а))

5,8

5,8

$35 USD / час

rawalpindi,

$35 USD / час

100 %

Завершенных работ

84 %

В рамках бюджета

100 %

Своевременно

24 %

Рейтинг повторного найма

-Aerospace Engr -CAD -FEA -Composite -CFD -ANSYS

Experienced Engineer with expertise in CAD, solving Computational Fluid Dynamics (CFD) analysis, Structural design and analysis (FEA), Composite Structures, Propulsion, Thermal, Multi-disciplinary problems, Research and Development (R&D), Aircraft design and development, Research Writing and Technical Writing. Product Design using CAD/CAM tools: SOLIDWORKS, CATIA V5, AUTODESK INVENTOR. Engineering Software Expertise: ANSYS(Fluent, Static Structural, ACP, Thermal), CATIA V5, Solidworks, Autodesk Inventor, MATLAB.

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Элементы портфолио

Preliminary design of aircraft and spacecraft structures and to solve structural design problems with suitable material choices.

Introduction to Aerospace Structures and Materials

Certified Engineering Simulations (CFD & FEA)
https://courses.edx.org/certificates/3c6d06ada60d49cbbef4c948c5262c56

Certified Engineering Simulations (CFD & FEA) Expert

Design requirements:
1. Capable of battery-powered and remote-controlled ornithopter flight
2. Foldable wings
3. 15 centimeters maximum wingspan
4. Accurate Night Fury dragon aesthetic (wing/tail design, all black, etc.)

Deliverables:
1. Physical micro dragon ornithopter (completed and finalized working version)
2. Design files
3. Parts list

Design and Development of Micro Dragon Ornithopter

Design requirements:
1. Capable of battery-powered and remote-controlled ornithopter flight
2. Foldable wings
3. 15 centimeters maximum wingspan
4. Accurate Night Fury dragon aesthetic (wing/tail design, all black, etc.)

Deliverables:
1. Physical micro dragon ornithopter (completed and finalized working version)
2. Design files
3. Parts list

Design and Development of Micro Dragon Ornithopter

Design requirements:
1. Capable of battery-powered and remote-controlled ornithopter flight
2. Foldable wings
3. 15 centimeters maximum wingspan
4. Accurate Night Fury dragon aesthetic (wing/tail design, all black, etc.)

Deliverables:
1. Physical micro dragon ornithopter (completed and finalized working version)
2. Design files
3. Parts list

Design and Development of Micro Dragon Ornithopter

Design requirements:
1. Capable of battery-powered and remote-controlled ornithopter flight
2. Foldable wings
3. 15 centimeters maximum wingspan
4. Accurate Night Fury dragon aesthetic (wing/tail design, all black, etc.)

Deliverables:
1. Physical micro dragon ornithopter (completed and finalized working version)
2. Design files
3. Parts list

Design and Development of Micro Dragon Ornithopter

Design requirements:
1. Capable of battery-powered and remote-controlled ornithopter flight
2. Foldable wings
3. 15 centimeters maximum wingspan
4. Accurate Night Fury dragon aesthetic (wing/tail design, all black, etc.)

Deliverables:
1. Physical micro dragon ornithopter (completed and finalized working version)
2. Design files
3. Parts list

Design and Development of Micro Dragon Ornithopter

Design requirements:
1. Capable of battery-powered and remote-controlled ornithopter flight
2. Foldable wings
3. 15 centimeters maximum wingspan
4. Accurate Night Fury dragon aesthetic (wing/tail design, all black, etc.)

Deliverables:
1. Physical micro dragon ornithopter (completed and finalized working version)
2. Design files
3. Parts list

Design and Development of Micro Dragon Ornithopter

Design requirements:
1. Capable of battery-powered and remote-controlled ornithopter flight
2. Foldable wings
3. 15 centimeters maximum wingspan
4. Accurate Night Fury dragon aesthetic (wing/tail design, all black, etc.)

Deliverables:
1. Physical micro dragon ornithopter (completed and finalized working version)
2. Design files
3. Parts list

Design and Development of Micro Dragon Ornithopter

Design requirements:
1. Capable of battery-powered and remote-controlled ornithopter flight
2. Foldable wings
3. 15 centimeters maximum wingspan
4. Accurate Night Fury dragon aesthetic (wing/tail design, all black, etc.)

Deliverables:
1. Physical micro dragon ornithopter (completed and finalized working version)
2. Design files
3. Parts list

Design and Development of Micro Dragon Ornithopter

Design requirements:
1. Capable of battery-powered and remote-controlled ornithopter flight
2. Foldable wings
3. 15 centimeters maximum wingspan
4. Accurate Night Fury dragon aesthetic (wing/tail design, all black, etc.)

Deliverables:
1. Physical micro dragon ornithopter (completed and finalized working version)
2. Design files
3. Parts list

Design and Development of Micro Dragon Ornithopter

Design requirements:
1. Capable of battery-powered and remote-controlled ornithopter flight
2. Foldable wings
3. 15 centimeters maximum wingspan
4. Accurate Night Fury dragon aesthetic (wing/tail design, all black, etc.)

Deliverables:
1. Physical micro dragon ornithopter (completed and finalized working version)
2. Design files
3. Parts list

Design and Development of Micro Dragon Ornithopter

Design requirements:
1. Capable of battery-powered and remote-controlled ornithopter flight
2. Foldable wings
3. 15 centimeters maximum wingspan
4. Accurate Night Fury dragon aesthetic (wing/tail design, all black, etc.)

Deliverables:
1. Physical micro dragon ornithopter (completed and finalized working version)
2. Design files
3. Parts list

Design and Development of Micro Dragon Ornithopter

Static Structural Analysis of Truss Braced Wing using ANSYS software to obtain the stresses, fatigue factor of safety at 1g, -1g and 2.5 g's load for structural validation using fluid structure interface.

Static Structural Analysis of Truss Braced Wing

Static Structural Analysis of Truss Braced Wing using ANSYS software to obtain the stresses, fatigue factor of safety at 1g, -1g and 2.5 g's load for structural validation using fluid structure interface.

Static Structural Analysis of Truss Braced Wing

Static Structural Analysis of Truss Braced Wing using ANSYS software to obtain the stresses, fatigue factor of safety at 1g, -1g and 2.5 g's load for structural validation using fluid structure interface.

Static Structural Analysis of Truss Braced Wing

Static Structural Analysis of Truss Braced Wing using ANSYS software to obtain the stresses, fatigue factor of safety at 1g, -1g and 2.5 g's load for structural validation using fluid structure interface.

Static Structural Analysis of Truss Braced Wing

An experimental study was conducted on green roofs under the summer climatic conditions of Sydney, Australia to investigate the effect of green roof on the amount of heat transferred from the outside environment to the inside rooms. Conventional and Engineered designs were investigated
side by side to get a clear picture of advantages attained because of the changes made. Six cases of analysis and simulation were carried out for both conventional and engineered roof, wall and floor. Simulations reveal incredible results suggesting improvement of more than 50% in terms of blocking heat being transferred inside the building, this in turn means a decrease of more than 50% in energy needs of the building and same decrease in greenhouse emissions. The results obtained are very promising and can be implemented to get a highly energy efficient building.

Zero Energy Building Design and Thermal Analysis

An experimental study was conducted on green roofs under the summer climatic conditions of Sydney, Australia to investigate the effect of green roof on the amount of heat transferred from the outside environment to the inside rooms. Conventional and Engineered designs were investigated
side by side to get a clear picture of advantages attained because of the changes made. Six cases of analysis and simulation were carried out for both conventional and engineered roof, wall and floor. Simulations reveal incredible results suggesting improvement of more than 50% in terms of blocking heat being transferred inside the building, this in turn means a decrease of more than 50% in energy needs of the building and same decrease in greenhouse emissions. The results obtained are very promising and can be implemented to get a highly energy efficient building.

Zero Energy Building Design and Thermal Analysis

An experimental study was conducted on green roofs under the summer climatic conditions of Sydney, Australia to investigate the effect of green roof on the amount of heat transferred from the outside environment to the inside rooms. Conventional and Engineered designs were investigated
side by side to get a clear picture of advantages attained because of the changes made. Six cases of analysis and simulation were carried out for both conventional and engineered roof, wall and floor. Simulations reveal incredible results suggesting improvement of more than 50% in terms of blocking heat being transferred inside the building, this in turn means a decrease of more than 50% in energy needs of the building and same decrease in greenhouse emissions. The results obtained are very promising and can be implemented to get a highly energy efficient building.

Zero Energy Building Design and Thermal Analysis

An experimental study was conducted on green roofs under the summer climatic conditions of Sydney, Australia to investigate the effect of green roof on the amount of heat transferred from the outside environment to the inside rooms. Conventional and Engineered designs were investigated
side by side to get a clear picture of advantages attained because of the changes made. Six cases of analysis and simulation were carried out for both conventional and engineered roof, wall and floor. Simulations reveal incredible results suggesting improvement of more than 50% in terms of blocking heat being transferred inside the building, this in turn means a decrease of more than 50% in energy needs of the building and same decrease in greenhouse emissions. The results obtained are very promising and can be implemented to get a highly energy efficient building.

Zero Energy Building Design and Thermal Analysis

An experimental study was conducted on green roofs under the summer climatic conditions of Sydney, Australia to investigate the effect of green roof on the amount of heat transferred from the outside environment to the inside rooms. Conventional and Engineered designs were investigated
side by side to get a clear picture of advantages attained because of the changes made. Six cases of analysis and simulation were carried out for both conventional and engineered roof, wall and floor. Simulations reveal incredible results suggesting improvement of more than 50% in terms of blocking heat being transferred inside the building, this in turn means a decrease of more than 50% in energy needs of the building and same decrease in greenhouse emissions. The results obtained are very promising and can be implemented to get a highly energy efficient building.

Zero Energy Building Design and Thermal Analysis

An experimental study was conducted on green roofs under the summer climatic conditions of Sydney, Australia to investigate the effect of green roof on the amount of heat transferred from the outside environment to the inside rooms. Conventional and Engineered designs were investigated
side by side to get a clear picture of advantages attained because of the changes made. Six cases of analysis and simulation were carried out for both conventional and engineered roof, wall and floor. Simulations reveal incredible results suggesting improvement of more than 50% in terms of blocking heat being transferred inside the building, this in turn means a decrease of more than 50% in energy needs of the building and same decrease in greenhouse emissions. The results obtained are very promising and can be implemented to get a highly energy efficient building.

Zero Energy Building Design and Thermal Analysis

An experimental study was conducted on green roofs under the summer climatic conditions of Sydney, Australia to investigate the effect of green roof on the amount of heat transferred from the outside environment to the inside rooms. Conventional and Engineered designs were investigated
side by side to get a clear picture of advantages attained because of the changes made. Six cases of analysis and simulation were carried out for both conventional and engineered roof, wall and floor. Simulations reveal incredible results suggesting improvement of more than 50% in terms of blocking heat being transferred inside the building, this in turn means a decrease of more than 50% in energy needs of the building and same decrease in greenhouse emissions. The results obtained are very promising and can be implemented to get a highly energy efficient building.

Zero Energy Building Design and Thermal Analysis

An experimental study was conducted on green roofs under the summer climatic conditions of Sydney, Australia to investigate the effect of green roof on the amount of heat transferred from the outside environment to the inside rooms. Conventional and Engineered designs were investigated
side by side to get a clear picture of advantages attained because of the changes made. Six cases of analysis and simulation were carried out for both conventional and engineered roof, wall and floor. Simulations reveal incredible results suggesting improvement of more than 50% in terms of blocking heat being transferred inside the building, this in turn means a decrease of more than 50% in energy needs of the building and same decrease in greenhouse emissions. The results obtained are very promising and can be implemented to get a highly energy efficient building.

Zero Energy Building Design and Thermal Analysis

An experimental study was conducted on green roofs under the summer climatic conditions of Sydney, Australia to investigate the effect of green roof on the amount of heat transferred from the outside environment to the inside rooms. Conventional and Engineered designs were investigated
side by side to get a clear picture of advantages attained because of the changes made. Six cases of analysis and simulation were carried out for both conventional and engineered roof, wall and floor. Simulations reveal incredible results suggesting improvement of more than 50% in terms of blocking heat being transferred inside the building, this in turn means a decrease of more than 50% in energy needs of the building and same decrease in greenhouse emissions. The results obtained are very promising and can be implemented to get a highly energy efficient building.

Zero Energy Building Design and Thermal Analysis

An experimental study was conducted on green roofs under the summer climatic conditions of Sydney, Australia to investigate the effect of green roof on the amount of heat transferred from the outside environment to the inside rooms. Conventional and Engineered designs were investigated
side by side to get a clear picture of advantages attained because of the changes made. Six cases of analysis and simulation were carried out for both conventional and engineered roof, wall and floor. Simulations reveal incredible results suggesting improvement of more than 50% in terms of blocking heat being transferred inside the building, this in turn means a decrease of more than 50% in energy needs of the building and same decrease in greenhouse emissions. The results obtained are very promising and can be implemented to get a highly energy efficient building.

Zero Energy Building Design and Thermal Analysis

To come up with a design which includes truss supports for a a bridge that is 200ft long, which will be subjected to a load of four trucks that each carry a payload in a trailer that weights 8,000lbs and 64,000 lbs respectively, and supports a total distributed load of the road of 1,500 lbs/ft.• The main objective is to ensure that there is not any significant deflections as well as ensuring stress levels are within the specifications of the material.• The primary concerns are due to the maximum deflection of the beam that supports the total weight as well as the maximum stress levels that such experiences.

Truss Bridge Design and Finite Element Analysis

To come up with a design which includes truss supports for a a bridge that is 200ft long, which will be subjected to a load of four trucks that each carry a payload in a trailer that weights 8,000lbs and 64,000 lbs respectively, and supports a total distributed load of the road of 1,500 lbs/ft.• The main objective is to ensure that there is not any significant deflections as well as ensuring stress levels are within the specifications of the material.• The primary concerns are due to the maximum deflection of the beam that supports the total weight as well as the maximum stress levels that such experiences.

Truss Bridge Design and Finite Element Analysis

To come up with a design which includes truss supports for a a bridge that is 200ft long, which will be subjected to a load of four trucks that each carry a payload in a trailer that weights 8,000lbs and 64,000 lbs respectively, and supports a total distributed load of the road of 1,500 lbs/ft.• The main objective is to ensure that there is not any significant deflections as well as ensuring stress levels are within the specifications of the material.• The primary concerns are due to the maximum deflection of the beam that supports the total weight as well as the maximum stress levels that such experiences.

Truss Bridge Design and Finite Element Analysis

To come up with a design which includes truss supports for a a bridge that is 200ft long, which will be subjected to a load of four trucks that each carry a payload in a trailer that weights 8,000lbs and 64,000 lbs respectively, and supports a total distributed load of the road of 1,500 lbs/ft.• The main objective is to ensure that there is not any significant deflections as well as ensuring stress levels are within the specifications of the material.• The primary concerns are due to the maximum deflection of the beam that supports the total weight as well as the maximum stress levels that such experiences.

Truss Bridge Design and Finite Element Analysis

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Показаны с 1 по 5 из 42 отзывов

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5,0

€100,00 EUR

Electric System Design

No remarks, great recommendation, great delivered work! Highly recommended

Mechanical Engineering

Finite Element Analysis

+ еще 1

Claudio B.

@claudioboone

•

2 года назад

4,8

€1 060,00 EUR

S.M.A.R.T. Industries ~ Project X

Good work! Once again!

Article Writing

Aerospace Engineering

+ еще 1

Claudio B.

@claudioboone

•

2 года назад

5,0

€250,00 EUR

S.M.A.R.T. Suit ~ Wing Airfoil Design

Excellent work delivered! The communication was perfect, regular updates were given.. Just an allround experience! Thanks Muhammad and team! Highly recommended!

Mechanical Engineering

Civil Engineering

Aeronautical Engineering

Aerospace Engineering

Claudio B.

@claudioboone

•

2 года назад

4,2

$55,00 USD

research about MEMS: Micro-Electro-Mechanical systems

delivered on time....!

Mechanical Engineering

Electrical Engineering

Chemical Engineering

Research Writing

Dmes S.

@Dmesstudent

•

2 года назад

5,0

£235,00 GBP

Project for Muhammad Jawad R. -- 2

Best aviation/aerospace engineer around. Very professional and experienced engineer.

Matlab and Mathematica

Mechanical Engineering

Finite Element Analysis

+ еще 1

M

Malcolm H.

@MalcolmH4

•

2 года назад

Образование

Introduction to Aerospace Structures and Materials

Technische Universiteit Delft,

Netherlands

2022 - 2023

(1 год)

ENGR2000X: A Hands-on Introduction to Engineering Simulations

Cornell University,

United States

2022

(Менее 1 года)

BS Aerospace Engineering

Institute of Space Technology ,

Pakistan

2014 - 2018

(4 года)

Квалификация

PEC

2018

BS Aerospace Engineering

Свяжитесь с Muhammad Jawad R. по поводу вашей работы

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