Shape change analysis of tensegrity models

Oh, Chai Lian; Choong, Kok Keong; Nishimura, Toku; Kim, Jae-Yeol; Hassanshahi, Omid

doi:10.1590/1679-78255407

Chai Lian Oh

Faculty of Civil Engineering, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia. E-mail: chailian_o80@yahoo.com

http://orcid.org/0000-0002-9474-8276

Kok Keong Choong ^**Corresponding author

School of Civil Engineering, Engineering Campus, Universiti Sains Malaysia, 14300 Nibong Tebal, Penang, Malaysia. E-mail: cekkc@usm.my, omid.hasanshahi@gmail.com

http://orcid.org/0000-0003-3900-268X

Toku Nishimura

Department of Architectural Engineering, Institute of Disaster and Environmental Science, Kanazawa Institute of Technology, Ishikawa, Japan. E-mail: eigen-t.nishimura@neptune.kanazawa-it.ac.jp

http://orcid.org/0000-0003-3185-4853

Jae-Yeol Kim

Department of Architectural Engineering, Hyupsung University, Hwaseong-si, Gyeongi-do, Republic of Korea. E-mail: jjaerinim@empas.com

http://orcid.org/0000-0002-4043-1329

Omid Hassanshahi

School of Civil Engineering, Engineering Campus, Universiti Sains Malaysia, 14300 Nibong Tebal, Penang, Malaysia. E-mail: cekkc@usm.my, omid.hasanshahi@gmail.com

http://orcid.org/0000-0001-9623-8387

*Corresponding author

Author’s Contributions:

Conceptualization, KK Choong, T Nishimura; Methodology, T Nishimura, KK Choong, CL Oh; Investigation, CL Oh; Writing-original draft, CL Oh; Writing-review & editing, KK Choong, CL Oh, T Nishimura, O Hassanshahi; Funding acquisition, JY Kim; Supervision, KK Choong, T Nishimura.

Editor:

Pablo Andrés Muñoz Rojas.

	Elastic Modulus, E (MPa)	Yield Stress, σ_s (MPa)	Density, γ (kg/mm³)	Strut Cross sectional Area, A _s (mm ² )	Cable Cross sectional Area, A _c (mm ² )
Simplex	200 000	250	7.85 × 10⁶	530.90	50.27
Quadruplex				201.00	52.60
Two-stage				50.27	0.79
Tapered three-stage				113.10	19.63

Members			Simplex	Quadruplex		Two-stage		Tapered three-stage
1	18	35	*1,4,1	1,8,1	2,7,2	1,7,1	7,5,2	1,6,1	5,9,2	8,11,2
2	19	36	2,5,1	2,6,1	3,6,2	2,8,1	3,7,2	2,4,1	9,6,2	9,12,2
3	20	37	3,6,1	3,7,1	4,8,2	3,9,1	2,9,2	3,5,1	6,7,2	7,13,2
4	21	38	4,5,2	4,5,1		4,10,1	1,8,2	7,12,1	7,4,2	8,14,2
5	22	39	5,6,2	1,3,2		5,11,1	3,4,2	8,10,1	10,14,2	9,15,2
6	23	40	6,4,2	3,4,2		6,12,1	2,6,2	9,11,1	14,11,2	4,10,2
7	24	41	1,2,2	4,2,2		1,2,2	1,5,2	13,18,1	11,15,2	5,11,2
8	25	42	2,3,2	2,1,2		2,3,2	10,5,2	14,16,1	15,12,2	6,12,2
9	26	43	3,1,2	5,6,2		3,1,2	11,6,2	15,17,1	12,13,2	13,16,2
10	27	44	1,5,2	6,8,2		10,11,2	12,4,2	1,2,2	13,10,2	14,17,2
11	28	45	2,6,2	8,7,2		11,12,2	10,7,2	2,3,2	1,4,2	15,18,2
12	29	46	3,4,2	7,5,2		12,10,2	11,8,2	3,1,2	2,5,2	10,16,2
13	30	47		1,6,2		5,8,2	12,9,2	16,17,2	3,6,2	11,17,2
14	31	48		3,8,2		8,6,2	1,6,2	17,18,2	1,7,2	12,18,2
15	32	49		4,7,2		6,9,2	2,4,2	18,16,2	2,8,2	1,8,2
16	33	50		2,5,2		9,4,2	3,5,2	4,8,2	3,9,2	2,9,2
17	34	51		1,5,2		4,7,2		8,5,2	7,10,2	3,7,2

Node	Simplex	Node	Two-stage	Node	Tapered three-stage
1	77.64, -289.77,-150	1	-42.72,9.98,0	1	-150.00,-86.60, 0
2	212.13,212.13,-150	2	43.43,-38.82,0	2	150.00, -86.60, 0
3	-289.77, 77.64,-150	3	42.62,60.22,0	3	0.00,173.21, 0
4	77.64, 289.77,150	4	68.51, -5.91,102.57	4	-120.26,-10.52,450
5	-289.77, -77.64,150	5	1.61,65.45,102.57	5	69.24,-98.89, 450
6	212.13, -212.13,150	6	-26.77,-28.16,102.57	6	51.02,109.41, 450
		7	55.65,49.06,157.80	7	-81.28,116.08, 270
Node	Quadruplex	8	-39.57,26.84,157.80	8	-59.89,-128.43,270
1	266.67,800, 0	9	27.28,-44.51,157.80	9	141.17,12.35, 270
2	800, 533.34, 0	10	-14.60,59.66,260.37	10	-77.28,44.61, 720
3	0, 266.67, 0	11	-13.67,-39.32, 260.37	11	0.00,-89.23, 720
4	533.34, 0, 0	12	71.60,10.99, 260.37	12	77.28,44.61, 720
5	533.34,800,300			13	0.00,110.22,540
6	0, 533.34, 300			14	-95.45,-55.11,540
7	800,266.67,300			15	95.45,-55.11,540
8	266.67,0,300			16	24.40,52.33, 990
				17	-57.51,-5.04,990
				18	33.12,-47.29, 990

Series	Simplex	Quadruplex	Two-stage	Tapered three-stage
Zp	195	114	74	227
Zn	70	70	48	119
Yp	91	189	22	34

[1] *Corresponding author

Brasil

Brasil

Shape change analysis of tensegrity models

Abstract