Page 58

Volume 4

December 10-12, 2018

Rome, Italy

Nano Research & Applications

ISSN: 2471-9838

Advanced Materials 2018

Nano Engineering 2018

JOINT EVENT

22

nd

International Conference on

Advanced Materials

and Simulation

&

22

nd

Edition of International Conference on

Nano Engineering &

Technology

N

ow-a-days in order to overcome the limitations of the physical

abilities, humans have tried their best to find external ways

and use the object or power to enhance their strength of physical

endurance. Therefore, some auxiliary devices can be able to

bear structures and power systems similar to exoskeletons have

emerged that provide additional energy to enhance the power

of the body. The common exoskeleton devices developed in the

market are worn on the human body and it has the problem of

the weight of the auxiliary device. Therefore, the design of the

structure, especially porous structure is important since it is the

efficient way for achieving the lightweight purpose. The porous

structure is a three-dimensional structure formed by a large

number of pores of the same shape. To compare with general

continuous materials the porous structure has the advantages

of low relative density, high specific strength, good permeability,

etc. In this research, all of the samples were fabricated by fused

deposition modeling (FDM) method. The materials used in this

study are composite which combine nylon and carbon short fiber.

The advantagesof these compositematerials are excellent tensile

strength, corrosion resistance and fatigue resistance. However,

the difference in scanning strategies during the manufacturing

process would directly affect the mechanical properties of the

structure. Hence, the relationship between the porosity structure

design, scanning strategies and the mechanical properties will

be explored and discussed in detail. Besides the differences

between the loading directions of the porous structure are also

the emphases in this research.

Biography

K U Huang was a MS student in the Department of Bioinformatics and Med-

ical Engineering, Asia University, Taiwan. His research interests include me-

chanical response of 3D printed composite materials.

kingfish0935@gmail.com

K U Huang

1, 2

, Y C Wu

3

, Y L Su

2,4

and

C N Kuo

1, 2

1

Department of Bioinformatics and Medical Engineering-Asia University, Republic of China

2

Asia University, Republic of China

3

National Sun Yat-Sen University, Republic of China

4

3D Printing Medical Research Center-China Medical University Hospital, Republic of China

K U Huang et al., Nano Res Appl 2018, Volume 4

DOI: 10.21767/2471-9838-C7-028

Mechanical response of 3D printed composite

materials