Along with the development of materials technology, the role of natural fibers is again being looked at by researchers to be used as composite reinforcement materials, especially in building construction. Elastic, strong, abundant, low production costs and environmentally friendly are the advantages of natural fibers. Therefore, the use of natural fiber is one of the efforts to use environmentally friendly material technology to reduce global warming. In-depth conversations, relevant research analysis, and bibliometric literature search are all part of the research technique. The ISI Web of Science database was queried to gather the data for the study, which was then analyzed using the VOS viewer and Bibliometric tools. The findings revealed a rising interest in this subject; for instance, over the past ten years, with a total of 285 publications in 2021 and 168 publications in 2022 but still able to grow. This shows the increasing research interest related to the theme ’natural fiber core of sandwich composites in the use of building materials’, as well as showcasing organizations and nations more intimately associated with the subject matter, the authors’ significance, as well as making it possible to track the subject’s advancement in science and provide direction for future research.

1.
W.
Nugraha
, (
2008
).
2.
T.
Townsend
and
J.
Sette
, (n.d.).
3.
M.
Bartolini
,
E.
Bottani
, and
E.H.
Grosse
,
J. Clean. Prod
.
226
,
242
(
2019
).
4.
P.V.
Reddy
,
R.V.S.
Reddy
,
J.L.
Rao
,
D.M.
Krishnudu
, and
P.R.
Prasad
,
Mater. Today Proc
.
45
,
6210
(
2020
).
5.
S.
Sathish
,
N.
Karthi
,
L.
Prabhu
,
S.
Gokulkumar
,
D.
Balaji
,
N.
Vigneshkumar
,
T.S.
Ajeem Farhan
,
A.
Akilkumar
, and
V.P.
Dinesh
,
Mater. Today Proc
.
45
,
8017
(
2021
).
6.
M.M.
Ratwani
,
NATO Mater. Des
.
16
(
2010
).
7.
Emmanuelle
,
Arikel
(
2012
).
8.
O.
Fashanu
,
M.
Rangapuram
,
A.
Abutunis
,
J.
Newkirk
,
K.
Chandrashekhara
,
H.
Misak
, and
D.
Klenosky
,
J. Sandw. Struct. Mater
.
24
,
1133
(
2022
).
9.
N.H.
Sari
, E.D. S, and
M.W.
Dirjan
, 4,
38
(
2014
).
10.
S.
Rocha Ferreira
,
A.
Rodrigues Sena Neto
,
F.
de Andrade Silva
,
F.
Gomes de Souza
, and
R.
Dias Toledo Filho
,
Constr. Build. Mater
.
262
,
120770
(
2020
).
11.
S.F.
Hamad
,
N.
Stehling
,
C.
Holland
,
J.P.
Foreman
, and
C.
Rodenburg
,
Procedia Eng
.
200
,
295
(
2017
).
12.
G.
Wang
and
F.
Chen
,
Adv. High Strength Nat. Fiber Compost. Constr
.
235
(
2017
).
13.
S.R.
Laraba
,
A.
Rezzoug
,
R.
Halimi
,
L.
Wei
,
Y.
Yang
,
S.
Abdi
,
Y.
Li
, and
W.
Jie
,
Ind. Crops Prod
.
184
,
115093
(
2022
).
14.
R.
Hoto
,
G.
Furundarena
,
J.P.
Torres
,
E.
Muñoz
,
J.
Andrés
, and
J.A.
García
,
Mater. Lett
.
127
,
48
(
2014
).
15.
O.
Hamdaoui
,
O.
Limam
,
L.
Ibos
, and
A.
Mezioud
,
Constr. Build. Mater
.
269
,
121339
(
2021
).
16.
E.
Aziz
,
H.
Mustapha
, and
E.A.
Jamila
,
Procedia Comput. Sci
.
175
,
683
(
2020
).
18.
N.
Ye
,
T.B.
Kueh
,
L.
Hou
,
Y.
Liu
, and
H.
Yu
,
J. Clean. Prod
.
272
,
122679
(
2020
).
19.
H.
Xie
,
Y.
Zhang
, and
K.
Duan
,
Habitat Int
.
95
,
102100
(
2020
).
20.
K.R.
Powell
and
S.R.
Peterson
,
Nurs. Outlook
65
,
572
(
2017
).
21.
T.
Zupic
,
I.
;
Selanjutnya
,
18
,
429
(
2015
).
22.
F.
Callon
,
M.
;
Pengadilan
, JP;
Laville
,
22
,
155
(
1991
).
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