Abstract
Environmental concerns have triggered the development of green composites as a replacement of non-degradable polymers. A variety of biopolymers, including polysaccharides, polyesters and proteins are reported to be used as matrices. Such biopolymers feature low mechanical and thermic properties. In order to improve the properties of these biopolymeric matrices, organic fillers derived from agroforestry wastes can be used. This paper aims to provide an up-to-date review of the development of fully green composite materials. A systematical classification based on the chemical structure of the biopolymeric matrices and the morphology of the natural reinforcements is proposed. In most cases, treatments and additives are used to prepare these green composites and overcome the problems related to poor biopolymer-filler interaction. Several applications as well as the improved mechanical, thermic and barrier properties of various green composite are also discussed.
This is a preview of subscription content, log in via an institution to check access.
Reproduced with permission from [46]
Reproduced with permission from [59]
Reproduced with permission from [63]
Reproduced with permission from [65]
Reproduced with permission from [95]
Similar content being viewed by others
References
Law K, Morét-Ferguson S, Maximenko N, Proskurowski G, Peacock E, Hafner J et al (2010) Science 329(5996):1185–1188
Law K, Moret-Ferguson SE, Goodwin DS, Zettler ER, DeForce E, Kukulka T et al (2014) Environ Sci Technol 48(9):4732–4738
Cózar A, Echevarría F, González-Gordillo J, Irigoien X, Úbeda B, Hernández-León S, Palma A et al (2014) Proc Natl Acad Sci 111(28):10239–10244
Eriksen M, Maximenko N, Thiel M, Cummins A, Lattin G, Wilson S et al (2013) Mar Pollut Bull 68(1–2):71–76
Laist D (1997) Mar debris. Springer, New York, pp 99–139
De Stephanis R, Giménez J, Carpinelli E, Gutierrez-Exposito C, Cañadas A (2013) Mar Pollut Bull 69(1–2):206–214
Singh B, Sharma N (2008) Polym Degrad Stab 93(3):561–584
Andrady A (2003) Plasticd and the environment. Wiley, Hoboken, pp 3–113
Barnes D, Galgani F, Thompson R, Barlaz M (2009) Philos Trans R Soc Lond B Biol Sci 364(1526):1985–1998
Hopewell J, Dvorak R, Kosior E (2009) Philos Trans R Soc Lond B Biol Sci 364(1526):2115–2126
Shah A, Hasan F, Hameed A, Ahmed S (2008) Biotechnology 26(3):246–265
Madurwar M, Ralegaonkar R, Mandavgane S (2013) Constr Build Mater 38:872–878
Leja K, Lewandowicz G (2010) Pol J Environ Stud 19:2–3
Dicker M, Duckworth P, Baker A, Francois G, Hazzard M, Weaver P (2014) Compos Part A Appl Sci Manuf 56:280–289
Khalil H, Bhat A, Yusra A (2012) Carbohydr Polym 87(2):963–979
Takagi H, Ichihara Y (2004) Jsme Int J A Solid Mech 47(4):551–555
Luo S, Netravali A (1999) Polym Compos 20(3):367–378
Luo S, Netravali A (1999) J Mater Sci 34(15):3709–3719
Khan M, Idriss Ali K, Hinrichsen G, Kopp C, Kropke S (1999) Polym Plast Technol Eng 38(1):99–112
Mohanty A, Misra M, Hinrichsen G (2000) Macromol Mater Eng 276(1):1–24
Mohanty A, Khan M, Sahoo S, Hinrichsen G (2000) J Mater Sci 35(10):2589–2595
Merino D, Gutiérrez T, Alvarez V (2019) J Polym Env 1:97–105
Bledzki A, Gassan J (1999) Prog Polym Sci 24(2):221–274
Bledzki A, Mamun A, Faruk O (2007) Express Polym Lett 1(11):755–762
Mohanty A, Misra M, Drzal L (2005) Natural fibers, biopolymers, and biocomposites. CRC Press, Boca Raton
Sanadi A, Calufield D, Rowell R (1994) Plast Eng 50(4):27–28
Stelte W, Sanadi A (2009) Ind Eng Chem Res 48(24):11211–11219
Stelte W, Barsberg S, Clemons C, Morais J, De Freitas Rosa M, Sanadi A (2018) Waste Biomass Valor. https://doi.org/10.1007/s12649-018-0362-2
Netravali A, Chabba S (2003) Mater Today 4(6):22–29
La Mantia FP, Morreale M (2011) Compos Part A Appl Sci Manuf 42(6):579–588
Mohanty A, Vivekanandhan S, Pin J, Misra M (2018) Science 362(6414):536–542
La Mantia F, Morreale M (2011) Compos Part A Appl Sci Manuf 42(6):579–588
Guravtar S, Lakhwinder P, Pramod K, Sunpreet S (2018) J Thermoplast Compos Mater. https://doi.org/10.1177/0892705718816354
Kanishka J, Ravinder K, Jagesvar V, Swastik P (2019) AIMS Mater Sci 6(1):119–138
Ramesh M, Palanikumar K, Reddy K (2017) Renew Sustain Energy Rev 79:558–584
Narayan R, Raquez JM, Nabar Y, Srinivasan M, Shin BY (2008) Carbohyd Polym 74(2):159–169
Othman S (2014) Agric Agric Sci Procedia 2:296–303
Villalba G, Segarra M, Fernández AI, Chimenos JM, Espiell F (2002) Resour Conserv Recycl 37(1):39–53
Soroudi A, Jakubowicz I (2013) Eur Polym J 49(10):2839–2858
Zaverl M, Misra M, Mohanty A (2012) J Appl Polym Sci 116(5):2658–2667
Lopez JP, Girones J, Mendez JA, Puig J, Pelach MA (2012) J Polym Environ 20(1):96–103
Aspinall G (2014) The polysaccharides, vol 2. Academic Press, London
Cha D, Chinnan M (2004) Crit Rev Food Sci Nutr 44(4):223–237
Appelqvist I, Debet M (1997) Food Rev Int 13(2):163–224
Torres F, Arroyo O, Gómez C (2007) J Thermoplast Compos Mater 20(2):207–223
Zobel H (1988) Starch-Starke 40(2):44–50
Buléon A, Colonna P, Planchot V, Ball S (1998) Int J Biol Macromol 23(2):85–112
Torres F, Troncoso O, Grande C, Díaz D (2011) Mater Sci Eng C 31(8):1737–1740
Torres F, Troncoso O, Díaz D, Amaya E (2011) Starch-Starke 63(6):381–389
Torres F, Troncoso O, Torres C, Díaz D, Amaya E (2011) Int J Biol Macromol 48(4):603–606
Torres F, Commeaux S, Troncoso O (2013) Starch-Starke 65(7–8):543–551
Heux L, Dinand E, Vignon M (1999) Carbohydr Polym 40(2):115–124
John M, Thomas S (2008) Carbohydr Polym 71(3):343–364
Abdul Khalil HPS, Bhat AH, Ireana Yusra AF (2012) Carbohydr Polym 87(2):963–979
Torres F, Commeaux S, Troncoso O (2012) J Funct Biomater 3(4):864–878
Torres F, Arroyo J, Troncoso O (2019) Mater Sci Eng C 98:1277–1293
Grande C, Torres F, Gomez C, Troncoso O, Canet-Ferrer J, Martínez-Pastor J (2009) Mater Sci Eng C 29(4):1098–1104
Torres F, Arroyo J, Alvarez R (2018) Polym Plast Technol Eng 58(8):1–14
Campo VL, Kawano DF, da Silva DB, Carvalho I (2009) Carbohydr Polym 77(2):167–180
Necas J, Bartosikova L (2013) Vet Med 58(4):187–205
Corvaglia S, Rodriguez S, Bardi G (2016) Int J Polym Polym Mater Biomater 65(11):574–580
Kumar M (2000) React Funct Polym 46(1):1–27
Julkapli N, Akil H (2010) Polym Plast Technol Eng 49(2):147–153
Stamboulis A, Baillie C, Garkhail S, Van Melick H, Peijs T (2000) Appl Compos Mater 7(5–6):273–294
Goodman A, Schilder H, Aldrich W (1974) Oral Surg Oral Med Oral Pathol Oral Radiol 37(6):954–961
Van Beilen J, Poirier Y (2007) Crit Rev Biotechnol 25(11):217–231
Williams L (1964) Econ Bot 45(4):5–26
Frantzeska K, Christopoulo D, Chondrokoukis P (2017) J Dent Heal Oral Disord Ther 8(2):00276
Bugnicourt E, Cinelli P, Lazzeri A, Alvarez V (2014) Budapest Univ Technol Econ 8(11):791–808
Fidler S, Dennis D (1992) FEMS Microbiol Rev 9(2–4):231–235
Choi J, Lee S (1999) Appl Microbiol Biotechnol 121(2):13–21
Misra S, Valappil S, Roy I, Boccaccini A (2006) Biomacromol 7(8):2249–2258
Khanna S, Srivastava A (2005) Process Biochem 40(2):607–619
Lee S (1996) Trends Biotechnol 14(3):98–105
Da Silva Pinto C, Arizaga G, Wypych F, Ramos L, Satyanarayana K (2009) Compos Part A Appl Sci Manuf 40(5):573–582
Lasprilla A, Martinez G, Lunelli B, Jardini A, Maciel Filho R (2012) Biotechnol Adv 30(1):321–328
Bajpai PK, Singh I, Madaan J (2014) J Thermoplast Compos Mater 27(1):52–81
Castro-Aguirre E, Iñiguez-Franco F, Samsudin H, Fang X, Auras R (2016) Adv Drug Deliv Rev 107:333–366
Wang L, Ma H (2010) Macromolecules 43(16):6535–6537
Wang K, Wu T, Shih Y, Huang C (2008) Polym Eng Sci 48(9):1833–1839
Sujaritjun W, Uawongsuwan P, Pivsa-Art W, Hamada H (2013) Energy Procedia 34:664–672
Prockop D, Kivirikko K, Tuderman L, Guzman N (1979) N Engl J Med 301(1):77–85
Shoulders M, Raines R (2009) Annu Rev Biochem 78:929–958
Chattopadhyay S, Raines R (2014) Biopolymers 101(8):821–833
Kadler K, Baldock C, Bella J, Boot-Handford R (2007) J Cell Sci 120(12):1955–1958
Van der Rest M, Garrone R, Herbage D (1993) Adv Mol cell Biol 6:1–67
Ricard-Blum S (2011) Cold Spring Harb Perspect Biol 3(1):a004978
Bradbury J (1973) Adv Protein Chem 27:111–211
Wang B, Yang W, McKittrick J, Meyers M (2016) Prog Mater Sci 76:229–318
Shukla R, Cheryan M (2001) Ind Crop Prod 13(3):171–192
Wieser H (2007) Food Microbiol 24(2):115–119
Veraverbeke W, Delcour J (2002) Crit Rev Food Sci Nutr 42(3):179–208
Townsend T, Sette J (2016) Natural fibres: advances in science and technology towards industrial applications, vol 12. Springer, Dordrecht, pp 381–390
Adekomaya O, Jamiru T, Sadiku R, Huan Z (2016) J Reinf Plast Compos 35(1):3–7
Kabir M, Wang H, Lau K, Cardona F (2012) Compos Part B-Eng 43(7):2883–2892
Koronis G, Silva A, Fontul M (2013) Compos Part B Eng 44(1):120–127
Rohit K, Dixit S (2016) Polym Renew Resour 7(2):43–60
Sánchez C (2009) Biotechnol Adv 27(2):185–194
Dorta E, Lobo M, González M (2012) Sci Technol 45(2):261–268
Asim M, Abdan K, Jawaid M, Nasir M, Dashtizadeh Z, Ishak M et al (2015) Int J Polym Sci 2015:1–16
Biagiotti J, Puglia D, Kenny J (2004) J Nat Fibers 1(2):37–68
Charlet K, Baley C, Morvan C, Jernot J, Gomina M, Bréard J (2007) Compos Part A Appl Sci Manuf 38(8):1912–1921
Gorshkova T, Sal’nikov V, Chemikosova S (2003) Ind Crop Prod 18(3):213–221
Faruk O, Bledzki A, Fink H, Sain M (2012) Prog Polym Sci 37(11):1552–1596
Day A, Ruel K, Neutelings G, Crônier D, David H, Hawkins S et al (2005) Planta 222(2):234–245
Rowell R, Sanadi A, Caulfield D, Jacobson R (1997) Lignocellul Compos 13:23–51
Saravana Bavan D, Mohan Kumar G (2010) J Reinf Plast Compos 29(4):3600–3613
Salentijn E, Zhang Q, Amaducci S, Yang M, Trindade L (2015) Ind Crop Prod 68:32–41
Mediavilla V, Leupin M, Keller A (2001) Ind Crop Prod 13(1):49–56
Sankari H (2000) Ind Crop Prod 11(1):73–84
Nishino T, Hirao K, Kotera M, Nakamae K, Inagaki H (2003) Compos Sci Technol 69(3):1281–1286
Kandimalla R, Kalita S, Choudhury B, Devi D, Kalita D, Kalita K et al (2016) Mater Sci Eng, C 62:816–822
Sen T, Reddy H (2011) Int J Innov Manag Technol 2(3):192
Imam M, Akter S (2011) J Appl Pharm Sci 1(5):14–20
Mukhopadhyay S, Fangueiro R, Shivankar V (2009) Text Res J 79(5):387–393
Vriesmann L, Amboni R, De Oliveira Petkowicz C (2011) Ind Crop Prod 34(1):1173–1181
Okiyama D, Navarro S, Rodrigues C (2017) Trends Food Sci Technol 63:103–112
Arlorio M, Coïsson J, Travaglia F, Varsaldi F, Miglio G, Lombardi G et al (2005) Food Res Int 38(8–9):1009–1014
Arlorio M, Coisson J, Restani P, Martelli A (2001) J Food Sci 66(5):653–656
Van den Oever M, Elbersen H, Keijsers E, Gosselink R, De Klerk-Engels B (2003) J Mater Sci 38(18):3697–3707
Sarath G, Baird L, Vogel K, Mitchell R (2007) Bioresour Technol 98(16):2985–2992
Reddy K, Maheswari C, Shukla M, Rajulu A (2012) Mater Lett 67(1):35–38
Kommula V, Reddy K, Shukla M, Marwala T, Rajulu A (2013) Int J Polym Anal Charact 18(4):303–314
Ansah T, Osafo E, Hansen H (2010) J Agric Biol N Am 5:923–929
Mukherjee P, Satyanarayan K (1984) J Mater Sci 19(12):3925–3934
Li Y, Mai Y, Ye L (2000) Compos Sci Technol 60(11):2037–2055
De Andrade Silva F, Chawla N, de Toledo Filho R (2008) Compos Sci Technol 68(15–16):3438–3443
Bisanda E, Ansell M (1991) Compos Sci Technol 41(2):165–178
Chand N, Tiwary R, Rohatgi P (1988) J Mater Sci 23(2):381–387
Mishra S, Mohanty A, Drzal L, Misra M, Hinrichsen G (2004) Macromol Mater Eng 298(11):955–974
Cai M, Takagi H, Nakagaito A (2015) Ind Crop Prod 65:27–35
Liu K, Takagi H, Yang Z (2013) Compos Part A Appl Sci Manuf 108:14–22
Shinoj S, Visvanathan R, Panigrahi S, Kochubabu M (2011) Ind Crop Prod 33(1):7–22
Karade S (2010) Constr Build Mater 24(8):1323–1330
Sreekala M, Kumaran M, Thomas S (1997) J Appl Polym Sci 66(5):821–835
Ibrahim N, Abu-Ilaiwi F, Rahman M, Ahmad M, Dahlan K, Yunus WM (2005) J Polym Res 12(3):173–179
Lazzari E, Schena T, Primaz C, da Silva Maciel GP, Machado M, Lima C et al (2016) Ind Crop Prod 83:529–536
Elizalde-González M, Hernández-Montoya V (2007) Biochem Eng J 36(3):230–238
Kittiphoom S (2012) Int Food Res J 19(4):1325–1335
Reddy N, Yang Y (2007) J Agric Food Chem 55(21):8570–8575
Binod P, Sindhu R, Singhania R, Vikram S, Devi L, Nagalakshmi S, Kurien N et al (2010) Bioresour Technol 15(2):4767–4774
Sood M, Dwivedi G (2018) Egypt J Pet 27(4):775–783
Deyholos M (2006) Isr J Plant Sci 6(1):273–280
Redgwell R, Trovato V, Merinat S, Curti D, Hediger S, Manez A (2003) Food Chem 81(1):103–112
Daud Z, Kassim ASM, Aripin AM, Awang H, Hatta MZM (2013) Aust J Basic Appl Sci 7(9):406–411
Sun R, Fang J, Goodwin A, Lawther J, Bolton A (1998) J Agric Food Chem 46(7):2817–2822
Lertwattanaruk P, Suntijitto A (2015) Constr Build Mater 94:664–669
Henrique MA, Silvério HA, Flauzino Neto WP, Pasquini D (2013) J Environ Manage 121:202–209
Reddy O, Maheswari U, Shukla M, Muzenda E (2014) Sep Sci Technol 49:1527–1534
Di Bella G, Fiore V, Galtieri G, Borsellino C, Valenza A (2014) Constr Build Mater 58:159–165
Collins SR, Wellner N, Martinez Bordonado I, Harper AL, Miller CN, Bancroft I et al (2014) Biotechnol Biofuels 7(1):1–14
Pickering KL, Efendy MGA, Le TM (2016) Compos Part A Appl Sci Manuf 83:98–112
Gu F, Wang W, Jing L, Jin Y (2013) Bioresour Technol 149:375–382
Haameem M, Abdul Majid MS, Afendi M, Marzuki HFA, Fahmi I, Gibson AG (2016) Compos Struct 136:1–10
Stelte W, Nielsen NPK, Hansen HO, Dahl J, Shang L, Sanadi AR (2013) Biomass Bioenergy 53:105–112
Omrani E, Menezes PL, Rohatgi PK (2016) Eng Sci Technol Int J 19(2):717–736
Asim M, Jawaid M, Abdan K, Ishak MR (2018) J Polym Environ 26(4):1520–1527
Ahmad F, Choi H, Park M (2015) Macromol Mater Eng 300(1):10–24
El-Sabbagh S, El-Hariri D, El-Ghaffar M (2001) Polym Polym Compos 9(8):549–560
Nam S, Netravali A (2006) Fibers Polym 7(4):372–379
Vijayalakshmi K, Neeraja CYK, Kavitha A, Hayavadana J (2014) Trans Eng Sci 2(9):16–19
Bouasker M, Belayachi N, Hoxha D, Al-Mukhtar M (2014) Materials (Basel) 7(4):3034–3048
Sykacek E, Hrabalova M, Frech H, Mundigler N (2009) Compos Part A Appl Sci Manuf 40(8):1272–1282
Amaral-Labat G, Pizzi A, Goncalves A, Celzard A, Rigolet S, Rocha G (2008) J Appl Polym Sci 108(1):624–632
Kord B (2011) BioResources 6(2):351–358
Martí-Ferrer F, Vilaplana F, Ribes-Greus A, Benedito-Borrás A, Sanz-Box C (2006) J Appl Polym Sci 99(4):1823–1831
Babaei I, Madanipour M, Farsi M, Farajpoor A (2014) Compos B Eng 56:163–170
El-Sakhawy M, Hassan M (2007) Carbohydr Polym 67(1):1–10
Ludueña L, Vecchio A, Stefani P, Alvarez V (2013) Fibers Polym 14(7):1118–1127
Eichhorn S (2011) Soft Matter 7(2):303–315
Torres F, Troncoso O, Torres C, Grande C (2013) Advances in natural polymers, vol 18. Springer, Berlin, Heidelberg, pp 21–54
Revol J, Bradford H, Giasson J, Marchessault R, Gray D (1992) Int J Biol Macromol 14(3):170–172
Araki J, Wada M, Kuga S, Okano T (1998) Colloids Surf A 142(1):75–82
De Rodriguez N, Thielemans W, Dufresne A (2006) Cellulose 13(3):261–270
Helbert W, Cavaille J, Dufresne A (1996) Polym Compos 17(4):604–611
Zhou F, Cheng G, Jiang B (2014) Appl Surf Sci 292:806–812
Torres F, Ochoa B, Machicao E (2003) Int Polym Proc 18(1):33–40
Li X, Tabil L, Panigrahi S (2007) J Polym Environ 15(1):25–33
Geethamma V, Joseph R, Thomas S (1995) J Appl Polym Sci 55(4):583–594
Gomes A, Matsuo T, Goda K, Ohgi J (2007) Compos Part A Appl Sci Manuf 38(8):1811–1820
Sreekala M, Kumaran M, Joseph S, Jacob M, Thomas S (2000) Appl Compos Mater 7(5–6):295–329
Mishra S, Tripathy S, Misra M, Mohanty A, Nayak S (2002) J Reinf Plast Comp 21(1):55–70
Kalita D, Netravali A (2015) Rev Adhes Adhes 3(4):386–443
Srisuwan S, Prasoetsopha N, Suppakarn N, Chumsamrong P (2014) Energy Procedia 56:19–25
Calabia B, Ninomiya F, Yagi H, Oishi A, Taguchi K, Kunioka M et al (2013) Polym J 5(1):128–141
Conzatti L, Giunco F, Stagnaro P, Patrucco A, Tonin C, Marano C et al (2014) Compos Part A Appl Sci Manuf 47:51–59
Saenghirunwattana P, Noomhorm A, Rungsardthong V (2014) Ind Crop Prod 60:144–150
Luo H, Zhang C, Xiong G, Wan Y (2016) Polym Compos 37(12):3499–3507
Orue A, Jauregi A, Unsuain U, Labidi J, Eceiza A, Arbelaiz A (2016) Compos Part A Appl Sci Manuf 84:186–195
Mohanty S, Nayak S, Verma S, Tripathy S (2004) J Reinf Plast Comp 23(6):625–637
Garcia-Campo MJ, Quiles-Carrillo L, Masia J, Reig-Pérez MJ, Montanes N, Balart R (2017) Materials 10(11):1339
Quiles-Carrillo L, Montanes N, Sammon C, Balart R, Torres-Giner S (2018) Ind Crops Prod 111:878–888
Zini E, Scandola M (2011) Polym com 32(12):1–14
Ibrahim H, Farag M, Megahed H, Mehanny S (2014) Carbohydr Polym 101:11–19
Torres F, Arroyo O, Grande C, Esparza E (2006) Int J Polym Mater Polym 55(12):1115–1132
Aguilar-Palazuelos E, Zazueta-Morales J, Jiménez-Arévalo O, Martínez-Bustos F (2007) Starch-Stärke 59(11):533–542
Alvarez V, Terenzi A, Kenny J, Vazquez A (2004) Polym Eng Sci 44(10):1907–1914
Prachayawarakorn J, Chaiwatyothin S, Mueangta S, Hanchana A (2013) Mater Des 47:309–315
Grande C, Torres F, Gomez C, Bañó M (2009) Acta Biomater 5(5):1605–1615
Li M, Wu Q, Song K, Cheng H, Suzuki S, Lei T (2016) ACS Sustain Chem Eng 4(8):4385–4395
Choi Y, Simonsen J (2006) J Nanosci Nanotechnol 6(3):633–639
Oun A, Rhim J (2015) Carbohydr Polym 127:101–109
Fortunati E, Peltzer M, Armentano I, Jiménez A, Kenny JM (2013) J Food Eng 118(1):117–124
Khan R, Salmieri S, Dussault D, Uribe-Calderon J, Kamal M, Safrany A et al (2010) J Agric Food Chem 58(13):7878–7885
Sánchez-García M, Hilliou L, Lagarón J (2010) J Agric Food Chem 58(11):12847–12857
Savadekar N, Karande V, Vigneshwaran N, Bharimalla A, Mhaske S (2012) Int J Biol Macromol 51(5):1008–1013
Zarina S, Ahmad I (2014) BioResources 10(1):256–271
Rudhziah S, Ahmad A, Ahmad I, Mohamed N (2015) Electrochim Acta 175:162–168
Shankar S, Reddy J, Rhim J, Kim H (2015) Carbohydr Polym 117:468–475
Li Q, Zhou J, Zhang L (2009) J Polym Sci B 47(11):1069–1077
Azeredo H, Mattoso L, Avena-Bustillos R, Filho G, Munford M, Wood D et al (2010) J Food Sci 75(1):1–7
Khan A, Khan R, Salmieri S, Le Tien C, Riedl B, Bouchard J et al (2012) Carbohydr Polym 90(4):1601–1608
Murty V, De S (1982) Rubber Chem Technol 55(2):287–308
Varghese S, Kuriakose B, Thomas S, Koshy A (1994) J Adhes Sci Technol 8(3):235–248
Ismail H, Rosnah N, Ishiaku U (1997) Polym Int 43(3):223–230
Jacob M, Thomas S, Varughese K (2004) Compos Sci Technol 64(7–8):955–965
Haseena A, Dasan K, Unnikrishnan G, Thomas S (2005) Prog Rubber Plast Recycl Technol 21(3):155–181
Lopattananon N, Panawarangkul K, Sahakaro K, Ellis B (2006) J Appl Polym Sci 102(2):1974–1984
Camargo F, Innocentini-Mei L, Lemes A, Moraes S, Duran N (2012) J Compos Mater 46(4):417–425
Wu CS (2014) J Polym Environ 22(3):384–392
Oksman K, Skrifvars M, Selin J (2003) Compos Sci Technol 63(9):1317–1324
Dong Y, Ghataura A, Takagi H, Haroosh H, Nakagaito A, Lau K (2014) Compos Part A Appl Sci Manuf 63:76–84
Tao Y, Yan L, Jie R (2009) Trans Nonferrous Met Soc China 19:651–655
Bledzki A, Jaszkiewicz A, Scherzer D (2009) Compos Part A Appl Sci Manuf 40(4):404–412
Kim J, Netravali A (2010) J Biobased Mater Bioenergy 4(4):338–345
Liu W, Misra M, Askeland P, Drzal L, Mohanty A (2005) Polymer 46(8):2710–2721
Song Y, Zheng Q, Liu C (2008) Ind Crop Prod 31(2):233–238
Acknowledgements
The authors would like to thank the Vice-Rectorate for Research (VRI) of the Pontificia Universidad Catolica del Peru and the National Program of Agrarian Innovation (PNIA) for financial support.
Author information
Authors and Affiliations
Corresponding author
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Torres, F.G., Rodriguez, S. & Saavedra, A.C. Green Composite Materials from Biopolymers Reinforced with Agroforestry Waste. J Polym Environ 27, 2651–2673 (2019). https://doi.org/10.1007/s10924-019-01561-5
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10924-019-01561-5