Abstract

Crumb rubber concrete (CRC) is one of the new construction materials, which has been developed as a by-product from wasted rubber tires and plastics. Most previous research focuses on applications of low-strength CRC that cannot linearly predict the high-strength counterpart. This paper thus presents a study into engineering characteristics of higher-strength CRC and its benefits to the environment, as well as investigates the ability of micro crumb rubbers to enhance CRC’s mechanical properties. The results revealed that replacing fine aggregate with micro rubber particles caused a reduction in mechanical properties of concrete. However, because of the micro size of rubber content and silica fume (SFC), the compressive strength of CRC achieved over 55 MPa, which will significantly benefit the advanced construction of compliant structural systems. The tensile strength of CRC was higher than plain concrete by approximately 8.74 % (splitting tensile strength) and 17.46 % (flexural strength), but it was still lower than that of SFC concrete. Moreover, CRCs also provided the ability to resist cracking of the concrete. It is found that a suitable amount of rubber particles should not be more than 10 % of the weight for novel and sustainable high-strength CRC in railway applications. The outcome of this study will help improve the database for materials in civil constructions. The adoption of sustainable high-strength CRC in railway practices will significantly minimize wastes from used rubber tires and plastics, thus paving a robust pathway for environmental impact to societies.

References

1.
Duangburong
J.
,
Tantayanon
S.
, and
Bhandhubanyong
P.
, “
A Breakthrough Challenge with Tyre Waste Management: Thailand Perspective
,”
International Journal of Social Science and Humanity
5
, no. 
9
(September
2015
):
768
772
, https://doi.org/10.7763/IJSSH.2015.V5.553
2.
Muzenda
E.
, “
A Discussion of Waste Tyre Utilization Options
” (paper presentation, Second International Conference on Research in Science, Engineering and Technology, Dubai, United Arab Emirates, March 21–22,
2014
).
3.
Pacheco-Torgal
F.
,
Ding
Y.
, and
Jalali
S.
, “
Properties and Durability of Concrete Containing Polymeric Wastes (Tyre Rubber and Polyethylene Terephthalate Bottles): An Overview
,”
Construction and Building Materials
30
(May
2012
):
714
724
, https://doi.org/10.1016/j.conbuildmat.2011.11.047
4.
Issa
C. A.
and
Salem
G.
, “
Utilization of Recycled Crumb Rubber as Fine Aggregates in Concrete Mix Design
,”
Construction and Building Materials
42
(May
2013
):
48
52
, https://doi.org/10.1016/j.conbuildmat.2012.12.054
5.
Rashad
A. M.
, “
A Comprehensive Overview about Recycling Rubber as Fine Aggregate Replacement in Traditional Cementitious Materials
,”
International Journal of Sustainable Built Environment
5
, no. 
1
(June
2016
):
46
82
, https://doi.org/10.1016/j.ijsbe.2015.11.003
6.
Padhi
S.
and
Panda
K. C.
, “
Fresh and Hardened Properties of Rubberized Concrete Using Fine Rubber and Silpozz
,”
Advances in Concrete Construction
4
, no. 
1
(
2016
):
49
69
, https://doi.org/10.12989/acc.2016.4.1.049
7.
Saha
S.
and
Rajasekaran
C.
, “
Mechanical Properties of Recycled Aggregate Concrete Produced with Portland Pozzolana Cement
,”
Advances in Concrete Construction
4
, no. 
1
(
2016
):
27
35
, https://doi.org/10.12989/acc.2016.4.1.027
8.
Solanki
P.
and
Dash
B.
, “
Mechanical Properties of Concrete Containing Recycled Materials
,”
Advances in Concrete Construction
4
, no. 
3
(
2016
):
207
220
, https://doi.org/10.12989/acc.2016.4.3.207
9.
Senin
M. S.
,
Shahidan
S.
,
Abdullah
S. R.
,
Guntor
N. A.
, and
Leman
A. S.
, “
A Review on the Suitability of Rubberized Concrete for Concrete Bridge Decks
,”
IOP Conference Series: Materials Science and Engineering
 271 (
2017
): 012074, https://doi.org/10.1088/1757-899X/271/1/012074
10.
Najim
K. B.
and
Hall
M. R.
, “
Mechanical and Dynamic Properties of Self-Compacting Crumb Rubber Modified Concrete
,”
Construction and Building Materials
27
, no. 
1
(February
2012
):
521
530
, https://doi.org/10.1016/j.conbuildmat.2011.07.013
11.
Lakusic
S.
,
Bjegović
D.
,
Haladin
I.
,
Baričević
A.
, and
Serdar
M.
, “
RUCONBAR – Innovative Noise Protection Solution Made of Recycled Waste Tyres
,”
Mechanics Transport Communications
, no. 
3
(
2011
):
76
82
.
12.
Aliabdo
A. A.
,
Elbaset
A. E. M. A.
, and
AbdElbaset
M. M.
, “
Utilization of Waste Rubber in Non-structural Applications
,”
Construction and Building Materials
91
(August
2015
):
195
207
, https://doi.org/10.1016/j.conbuildmat.2015.05.080
13.
El-Gammal
,
Abdel-Gawad
A. K.
,
Elsherbini
Y. M.
,
Shalaby
A.
, “
Compressive Strength of Concrete Utilizing Waste Tire Rubber
,”
Journal of Emerging Trends in Engineering and Applied Sciences
1
, no. 
1
(October
2010
).
14.
Siddique
R.
and
Naik
T. R.
, “
Properties of Concrete Containing Scrap-Tire Rubber – An Overview
,”
Waste Management
24
, no. 
6
(
2004
):
563
569
, https://doi.org/10.1016/j.wasman.2004.01.006
15.
Su
H.
,
Yang
J.
,
Ling
T.-C.
,
Ghataora
G. S.
, and
Dirar
S.
, “
Properties of Concrete Prepared with Waste Tyre Rubber Particles of Uniform and Varying Sizes
,”
Journal of Cleaner Production
91
(March
2015
):
288
296
, https://doi.org/10.1016/j.jclepro.2014.12.022
16.
Topçu
I. B.
and
Bilir
T.
, “
Experimental Investigation of Some Fresh and Hardened Properties of Rubberized Self-Compacting Concrete
,”
Materials & Design
30
, no. 
8
(September
2009
):
3056
3065
, https://doi.org/10.1016/j.matdes.2008.12.011
17.
Aiello
M. A.
and
Leuzzi
F.
, “
Waste Tyre Rubberized Concrete: Properties at Fresh and Hardened State
,”
Waste Management
30
, nos. 
8–9
(August–September
2010
):
1696
1704
, https://doi.org/10.1016/j.wasman.2010.02.005
18.
Eldin
N. N.
and
Senouci
A. B.
, “
Rubber-Tire Particles as Concrete Aggregate
,”
Journal of Materials in Civil Engineering
5
, no. 
4
(November
1993
):
478
496
, https://doi.org/10.1061/(ASCE)0899-1561(1993)5:4(478)
19.
Güneyisi
E.
,
Gesoğlu
M.
, and
Özturan
T.
, “
Properties of Rubberized Concretes Containing Silica Fume
,”
Cement and Concrete Research
34
, no. 
12
(December
2004
):
2309
2317
, https://doi.org/10.1016/j.cemconres.2004.04.005
20.
Chou
L.-H.
,
Lin
C.-N.
,
Lu
C.-K.
,
Lee
C.-H.
, and
Lee
M.-T.
, “
Improving Rubber Concrete by Waste Organic Sulfur Compounds
,”
Waste Management & Research
28
, no. 
1
(January
2010
):
29
35
, https://doi.org/10.1177/0734242X09103843
21.
Su
H.
,
Yang
J.
,
Ghataora
G. S.
, and
Dirar
S.
, “
Surface Modified Used Rubber Tyre Aggregates: Effect on Recycled Concrete Performance
,”
Magazine of Concrete Research
67
, no. 
12
(June
2015
):
680
691
, https://doi.org/10.1680/macr.14.00255
22.
Gupta
T.
,
Chaudhary
S.
, and
Sharma
R. K.
, “
Mechanical and Durability Properties of Waste Rubber Fiber Concrete with and without Silica Fume
,”
Journal of Cleaner Production
112
, part
1
(January
2016
):
702
711
, https://doi.org/10.1016/j.jclepro.2015.07.081
23.
Kumar
G. N.
,
Sandeep
V.
, and
Sudharani
C.
, “
Using Tyres Wastes as Aggregates in Concrete to Form Rubcrete – Mix for Engineering Applications
,”
International Journal of Research in Engineering and Technology
3
, no. 
11
(November
2014
):
500
509
, https://doi.org/10.15623/ijret.2014.0311086
24.
Onuaguluchi
O.
and
Panesar
D. K.
, “
Hardened Properties of Concrete Mixtures Containing Pre-coated Crumb Rubber and Silica Fume
,”
Journal of Cleaner Production
82
(November
2014
):
125
131
, https://doi.org/10.1016/j.jclepro.2014.06.068
25.
Onuaguluchi
O.
, “
Effects of Surface Pre-coating and Silica Fume on Crumb Rubber-Cement Matrix Interface and Cement Mortar Properties
,”
Journal of Cleaner Production
104
(October
2015
):
339
345
, https://doi.org/10.1016/j.jclepro.2015.04.116
26.
Thomas
B. S.
and
Gupta
R. C.
, “
Properties of High Strength Concrete Containing Scrap Tire Rubber
,”
Journal of Cleaner Production
113
(February
2016
):
86
92
, https://doi.org/10.1016/j.jclepro.2015.11.019
27.
Zheng
L.
,
Huo
X. S.
, and
Yuan
Y.
, “
Strength, Modulus of Elasticity, and Brittleness Index of Rubberized Concrete
,”
Journal of Materials in Civil Engineering
20
, no. 
11
(November
2008
):
692
699
, https://doi.org/10.1061/(ASCE)0899-1561(2008)20:11(692)
28.
Guo
Y.-C.
,
Zhang
J.-H.
,
Chen
G.-M.
, and
Xie
Z.-H.
, “
Compressive Behaviour of Concrete Structures Incorporating Recycled Concrete Aggregates, Rubber Crumb and Reinforced with Steel Fibre, Subjected to Elevated Temperatures
,”
Journal of Cleaner Production
72
(June
2014
):
193
203
, https://doi.org/10.1016/j.jclepro.2014.02.036
29.
Zheng
L.
,
Huo
X. S.
, and
Yuan
Y.
, “
Experimental Investigation on Dynamic Properties of Rubberized Concrete
,”
Construction and Building Materials
22
, no. 
5
(May
2008
):
939
947
, https://doi.org/10.1016/j.conbuildmat.2007.03.005
30.
Snelson
D. G.
,
Kinuthia
J. M.
,
Davies
P. A.
, and
Chang
S.-R.
, “
Sustainable Construction: Composite Use of Tyres and Ash in Concrete
,”
Waste Management
29
, no. 
1
(January
2009
):
360
367
, https://doi.org/10.1016/j.wasman.2008.06.007
31.
Thomas
B. S.
,
Gupta
R. C.
, and
Panicker
V. J.
, “
Recycling of Waste Tire Rubber as Aggregate in Concrete: Durability-Related Performance
,”
Journal of Cleaner Production
112
, part
1
(January
2016
):
504
513
, https://doi.org/10.1016/j.jclepro.2015.08.046
32.
Thomas
B. S.
and
Gupta
R. C.
, “
Long Term Behaviour of Cement Concrete Containing Discarded Tire Rubber
,”
Journal of Cleaner Production
102
(September
2015
):
78
87
, https://doi.org/10.1016/j.jclepro.2015.04.072
33.
Li
G.
,
Garrick
G.
,
Eggers
J.
,
Abadie
C.
,
Stubblefield
M. A.
, and
Pang
S.-S.
, “
Waste Tire Fiber Modified Concrete
,”
Composites Part B: Engineering
35
, no. 
4
(
2004
):
305
312
, https://doi.org/10.1016/j.compositesb.2004.01.002
34.
Gupta
T.
,
Sharma
R. K.
, and
Chaudhary
S.
, “
Impact Resistance of Concrete Containing Waste Rubber Fiber and Silica Fume
,”
International Journal of Impact Engineering
83
(September
2015
):
76
87
, https://doi.org/10.1016/j.ijimpeng.2015.05.002
35.
Sukontasukkul
P.
, “
Use of Crumb Rubber to Improve Thermal and Sound Properties of Pre-cast Concrete Panel
,”
Construction and Building Materials
23
, no. 
2
(February
2009
):
1084
1092
, https://doi.org/10.1016/j.conbuildmat.2008.05.021
36.
Holmes
N.
,
Browne
A.
, and
Montague
C.
, “
Acoustic Properties of Concrete Panels with Crumb Rubber as a Fine Aggregate Replacement
,”
Construction and Building Materials
73
(December
2014
):
195
204
, https://doi.org/10.1016/j.conbuildmat.2014.09.107
37.
Kaloush
K. E.
,
Way
G. B.
, and
Zhu
H.
, “
Properties of Crumb Rubber Concrete
,”
Transportation Research Record
1914
, no. 
1
(January
2005
):
8
14
, https://doi.org/10.1177/0361198105191400102
38.
Sukontasukkul
P.
and
Chaikaew
C.
, “
Properties of Concrete Pedestrian Block Mixed with Crumb Rubber
,”
Construction and Building Materials
20
, no. 
7
(September
2006
):
450
457
.
39.
Kang
J.
,
Zhang
B.
, and
Li
G.
, “
The Abrasion-Resistance Investigation of Rubberized Concrete
,”
Journal of Wuhan University of Technology-Materials Science Edition
27
, no. 
6
(December
2012
):
1144
1148
, https://doi.org/10.1007/s11595-012-0619-8
40.
Cao
J.
and
Chung
D. D. L.
, “
Damage Evolution during Freeze–Thaw Cycling of Cement Mortar, Studied by Electrical Resistivity Measurement
,”
Cement and Concrete Research
32
, no. 
10
(October
2002
):
1657
1661
, https://doi.org/10.1016/S0008-8846(02)00856-6
41.
Janssen
D. J.
and
Snyder
M. B.
,
Resistance of Concrete to Freezing and Thawing, SHRP-C-391
(
Washington, DC
:
Strategic Highway Research Program
,
1994
).
42.
Richardson
A. E.
,
Coventry
K. A.
, and
Ward
G.
, “
Freeze/Thaw Protection of Concrete with Optimum Rubber Crumb Content
,”
Journal of Cleaner Production
23
, no. 
1
(March
2012
):
96
103
, https://doi.org/10.1016/j.jclepro.2011.10.013
43.
Richardson
A.
,
Coventry
K.
,
Edmondson
V.
, and
Dias
E.
, “
Crumb Rubber Used in Concrete to Provide Freeze–Thaw Protection (Optimal Particle Size)
,”
Journal of Cleaner Production
112
, part
1
(January
2016
):
599
606
, https://doi.org/10.1016/j.jclepro.2015.08.028
44.
Gesoğlu
M.
,
Güneyisi
E.
,
Khoshnaw
G.
, and
Ipek
S.
, “
Abrasion and Freezing–Thawing Resistance of Pervious Concretes Containing Waste Rubbers
,”
Construction and Building Materials
73
(December
2014
):
19
24
, https://doi.org/10.1016/j.conbuildmat.2014.09.047
45.
Kaewunruen
S.
and
Remennikov
A. M.
, “
Experiments into Impact Behaviour of Railway Prestressed Concrete Sleepers
,”
Engineering Failure Analysis
18
, no. 
8
(December
2011
):
2305
2315
, https://doi.org/10.1016/j.engfailanal.2011.08.007
46.
Meesit
R.
and
Kaewunruen
S.
, “
Vibration Characteristics of Micro-Engineered Crumb Rubber Concrete for Railway Sleeper Applications
,”
Journal of Advanced Concrete Technology
15
, no. 
2
(
2017
):
55
66
, https://doi.org/10.3151/jact.15.55
47.
Kaewunruen
S.
and
Meesit
R.
, “
Sensitivity of Crumb Rubber Particle Sizes on Electrical Resistance of Rubberised Concrete
,”
Cogent Engineering
3
, no. 
1
(
2016
): 1126937, https://doi.org/10.1080/23311916.2015.1126937
48.
Kaewunruen
S.
,
Meesit
R.
, and
Mondal
P.
, “
Early-Age Dynamic Moduli of Crumbed Rubber Concrete for Compliant Railway Structures
,”
Journal of Sustainable Cement-Based Materials
6
, no. 
5
(September
2017
):
281
292
, https://doi.org/10.1080/21650373.2017.1280425
49.
Akono
A.-T.
,
Chen
J.
, and
Kaewunruen
S.
, “
Friction and Fracture Characteristics of Engineered Crumb-Rubber Concrete at Microscopic Lengthscale
,”
Construction and Building Materials
175
(June
2018
):
735
745
, https://doi.org/10.1016/j.conbuildmat.2018.04.141
50.
Remennikov
A. M.
and
Kaewunruen
S.
, “
A Review of Loading Conditions for Railway Track Structures Due to Train and Track Vertical Interaction
,”
Structural Control and Health Monitoring
15
, no. 
2
(
2008
):
207
234
, https://doi.org/10.1002/stc.227
51.
Remennikov
A. M.
,
Murray
M. H.
, and
Kaewunruen
S.
, “
Reliability-Based Conversion of a Structural Design Code for Railway Prestressed Concrete Sleepers
,”
Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit
226
, no. 
2
(March
2012
):
155
173
, https://doi.org/10.1177/0954409711418754
52.
Kaewunruen
S.
,
Li
D.
,
Chen
Y.
, and
Xiang
Z.
, “
Enhancement of Dynamic Damping in Eco-Friendly Railway Concrete Sleepers Using Waste-Tyre Crumb Rubber
,”
Materials
11
, no. 
7
(
2018
): 1169, https://doi.org/10.3390/ma11071169
53.
Huang
X.
,
Ge
J.
,
Kaewunruen
S.
, and
Su
Q.
, “
The Self-Sealing Capacity of Environmentally Friendly, Highly Damped, Fibre-Reinforced Concrete
,”
Materials
13
, no. 
2
(
2020
): 298, https://doi.org/10.3390/ma13020298
54.
Talukdar
S.
,
Islam
S. T.
, and
Banthia
N.
, “
Development of a Lightweight Low-Carbon Footprint Concrete Containing Recycled Waste Materials
,”
Advances in Civil Engineering
2011
(
2011
): 594270, https://doi.org/10.1155/2011/594270
55.
Allen
F.
, “
Crumb Rubber Concrete
,”
National Precast Concrete Association
,
2010
, http://web.archive.org/web/20200325195346/https://precast.org/2010/05/crumb-rubber-concrete/
56.
Nielsen
C. V.
, “
Carbon Footprint of Concrete Buildings Seen in the Life Cycle Perspective
,” in
Proceedings NRMCA 2008 Concrete Technology Forum
(
Silver Spring, MD
:
National Ready Mixed Concrete Association
,
2008
),
1
14
.
57.
Cement. Composition, Specifications and Conformity Criteria for Common Cements
, BS EN 197-1 (
London, UK
:
British Standards Institution
,
2011
).
58.
Elkem Microsilica
Elkem Microsilica Grade 940
(
Kristiansand, Norway
:
Elkem Microsilica
,
2015
).
59.
Teychenne
D. C.
,
Franklin
R. E.
,
Erntroy
H. C.
,
Nicholls
J. C.
,
Hobbs
D. W.
, and
Marsh
D. W.
,
Design of Normal Concrete Mixes
(
Garston Watford, UK
:
Building Research Establishment
,
1997
).
60.
Testing Hardened Concrete Part 3: Compressive Strength of Test Specimens
(Superseded), BS EN 12390-3 (
London, UK
:
British Standards Institution
,
2009
).
61.
Testing Hardened Concrete Part 6: Tensile Splitting Strength of Test Specimens
, BS EN 12390-6 (
London, UK
:
British Standards Institution
,
2009
).
62.
Testing Hardened Concrete Part 5: Flexural Strength of Test Specimens
(Superseded), BS EN 12390-5 (
London, UK
:
British Standards Institution
,
2009
).
63.
Sohrabi
M. R.
and
Karbalaie
M.
, “
An Experimental Study on Compressive Strength of Concrete Containing Crumb Rubber
,”
International Journal of Civil & Environmental Engineering
11
, no. 
3
(June
2011
):
23
27
.
64.
Turatsinze
A.
,
Bonnet
S.
, and
Granju
J.-L.
, “
Mechanical Characterisation of Cement-Based Mortar Incorporating Rubber Aggregates from Recycled Worn Tyres
,”
Building and Environment
40
, no. 
2
(February
2005
):
221
226
, https://doi.org/10.1016/j.buildenv.2004.05.012
65.
Mansour
R.
,
El Abidine
R. Z.
, and
Brahim
B.
, “
Performance of Polymer Concrete Incorporating Waste Marble and Alfa Fibers
,”
Advances in Concrete Construction
5
, no. 
4
(August
2017
):
331
343
.
66.
Ganjian
E.
,
Khorami
M.
, and
Maghsoudi
A. A.
, “
Scrap-Tyre-Rubber Replacement for Aggregate and Filler in Concrete
,”
Construction and Building Materials
23
, no. 
5
(May
2009
):
1828
1836
, https://doi.org/10.1016/j.conbuildmat.2008.09.020
67.
Thomas
B. S.
and
Gupta
R. C.
, “
A Comprehensive Review on the Applications of Waste Tire Rubber in Cement Concrete
,”
Renewable and Sustainable Energy Reviews
54
(February
2016
):
1323
1333
, https://doi.org/10.1016/j.rser.2015.10.092
68.
Thomas
B. S.
,
Kumar
S.
,
Mehra
P.
,
Gupta
R. C.
,
Joseph
M.
, and
Csetenyi
L. J.
, “
Abrasion Resistance of Sustainable Green Concrete Containing Waste Tire Rubber Particles
,”
Construction and Building Materials
124
(October
2016
):
906
909
, https://doi.org/10.1016/j.conbuildmat.2016.07.110
69.
Thomas
B. S.
,
Gupta
R. C.
,
Mehra
P.
, and
Kumar
S.
, “
Performance of High Strength Rubberized Concrete in Aggressive Environment
,”
Construction and Building Materials
83
(May
2015
):
320
326
, https://doi.org/10.1016/j.conbuildmat.2015.03.012
70.
Thomas
B. S.
,
Gupta
R. C.
, and
Panicker
V. J.
, “
Experimental and Modelling Studies on High Strength Concrete Containing Waste Tire Rubber
,”
Sustainable Cities and Society
19
(December
2015
):
68
73
, https://doi.org/10.1016/j.scs.2015.07.013
71.
Kaewunruen
S.
,
Sussman
J. M.
, and
Matsumoto
A.
, “
Grand Challenges in Transportation and Transit Systems
,”
Frontiers in Built Environment
2
(February
2016
): 4, https://doi.org/10.3389/fbuil.2016.00004
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