Isolation of Microcrystalline Cellulose from Wood and Fabrication of Polylactic Acid(PLA)Based Green Biocomposites

An innovative microcrystalline cellulose(MCC)natural fibre powder-reinforced PLA biocomposite was investigated using the hand lay-up technique.The polymer matrix composite(PMC)samples were prepared by varying the weight percentages(wt.%)of both PLA matrix and MCC reinforcement:pure PLA/100:0,90:10,80:20,70:30,60:40 and 50:50 wt.%,respectively.From the results obtained,MCC powder,with its impressive aspect ratio,proved to be an ideal reinforcement for the PLA,exhibiting exceptional mechanical properties.It was evident that the 80:20 wt.%biocomposite sample exhibited the maximum improvement in the tensile,flexural,notched impact,compressive strength and hardness by 28.85%,20.00%,91.66%,21.53%and 35.82%,respectively compared to the pure PLA sample.Similarly,during the thermogravimetric analysis(TGA),the same 80:20 wt.%biocomposite sample showed a minimum weight loss of 20%at 400℃,among others.The morphological study using Field Emission Scanning Electron Microscopy(FE-SEM)revealed that the uniform distribution of cellulose reinforcement in the PLA matrix actively improved the mechanical properties of the biocomposites,especially the optimal 80:20 wt.%sample.Importantly,it was evident that the optimal PLA/cellulose biocomposite sample could be a suitable and alternative sustainable,environmentally friendly and biodegradable material for semi/structural applications,replacing synthetic and traditional components.

Properties enhancement of antimicrobial chitosan-deposited polylactic acid films via cold plasma treatment

The present study aimed to understand the effect of dielectric barrier discharge cold plasma(DBD-CP)technology on the antimicrobial chitosan deposition and the properties enhancement of polylactic acid(PLA)films.The results indicated that DBD-CP was an effective method for improving the adhesion and surface hydrophilicity of PLA,facilitating the deposition of chitosan coating.This modification was attributed to the increased surface roughness,as well as the presence of polar functional groups observed through atomic force microscopy,surface free energy and Fourier transform infrared spectroscopy analysis.The study further revealed that both water resistance and mechanical properties were significantly improved after DBD-CP treatment,which was positively correlated with the amount of chitosan deposited on the PLA surfaces.Following comprehensive evaluation,the treatment at 75 W was determined as the optimal condition for enhancing the properties.Additionally,the modified film exhibited strong antimicrobial activity against Staphylococcus aureus.Consequently,the DBD-CP technology could be a promising tool for better utilization of PLA-based materials in the antibacterial food packaging industry.

羟基化氮化硼改性PLA纳米纤维膜的制备及性能研究

为拓展生物基可降解PLA纳米纤维膜在空气过滤等医疗卫生领域的应用范围,通过机械剥离与功能化改性方法制备羟基化氮化硼(BNO)二维纳米片,并采用静电纺丝工艺制备羟基化氮化硼纳米片改性聚乳酸(PLA/BNO)纳米纤维膜。探讨BNO纳米片的引入对PLA纳米纤维膜的微观结构与形貌、导热性能、力学性能以及空气过滤性能的影响。结果表明:与纯PLA纳米纤维膜相比,PLA/BNO纳米纤维膜的拉伸力学性能以及导热性能显著提高。当纺丝液中BNO纳米片质量分数为0.7%时,风速为0.01 m/s时,PLA/BNO纳米纤维膜的过滤效率为99.97%,品质因子达到最大值0.262 Pa^(-1),阻力压降最小为31 Pa,PLA/BNO纳米纤维膜的拉伸断裂强度以及导热系数较纯PLA纳米纤维膜分别提高27.39%和26.62%。

PLA/天然废弃植物源提取物复合材料的制备与性能

针对废弃资源综合利用和通用塑料污染问题,采用超声波辅助提取法提取天然废弃植物源有效成分,并与聚乳酸(PLA)复合,探究石榴皮提取物(PGE)和洋葱皮提取物(OPE)对PLA性能的影响。结果表明:两种提取物的加入并没有改变PLA的晶型,但提高了成核密度,减小了球晶尺寸。复合材料的热稳定性有一定的下降,但由于提取物中羟基与PLA发生了氢键作用使其下降幅度不大,同时弥补了复合材料力学性能减小的趋势。植物源提取物的添加使复合材料中的—OH基团数量增多,水蒸汽透过率也随之增大,适用于地膜及食品果蔬保鲜材料中。两种提取物赋予了复合材料不同色泽,染色成分与PLA间的界面作用使复合材料耐摩擦色牢度得以保持,扩大了其应用范围。两种复合材料具有显著的抑菌作用,其中,PGE含量为9%时,其复合材料的抗菌率可达95%以上,可以作为抗菌材料应用。

聚乳酸聚氨酯嵌段预聚体增韧PLA/TPU共混物

合成聚乳酸聚氨酯嵌段共聚物预聚体(PLA-b-PUP),以其作为聚乳酸(PLA)和热塑性聚氨酯(TPU)的活性相容剂,通过原位反应增容制备PLA/TPU/PLA-b-PUP超韧共混物.通过拉伸试验、冲击试验、SEM、FTIR、DSC和TGA研究共混物的力学性能、热性能和增韧机理.结果表明,PLA-b-PUP中的异氰酸酯基团与PLA和TPU上的活性基团发生反应,显著改善了PLA/TPU共混物两相界面的相容性.随着PLA-b-PUP的加入量增加,共混物中PLA的玻璃化转变温度和相对结晶度逐渐降低,当PLA-b-PUP的质量分数为PLA/TPU共混物的4%时,共混材料的断裂伸长率和缺口冲击强度分别达到无相容剂时的8.12和2.73倍,表现出良好的增容增韧效果.添加PLA-b-PUP后,共混物的初始分解温度有所降低,但最快分解温度有所提高.

3D printing of personalized polylactic acid scaffold laden with GelMA/autologous auricle cartilage to promote ear reconstruction

At present,the clinical reconstruction of the auricle usually adopts the strategy of taking autologous costal cartilage.This method has great trauma to patients,poor plasticity and inaccurate shaping.Three-dimensional(3D)printing technology has made a great breakthrough in the clinical application of orthopedic implants.This study explored the combination of 3D printing and tissue engineering to precisely reconstruct the auricle.First,a polylactic acid(PLA)polymer scaffold with a precisely customized patient appearance was fabricated,and then auricle cartilage fragments were loaded into the 3D-printed porous PLA scaffold to promote auricle reconstruction.In vitro,gelatin methacrylamide(GelMA)hydrogels loaded with different sizes of rabbit ear cartilage fragments were studied to assess the regenerative activity of various autologous cartilage fragments.In vivo,rat ear cartilage fragments were placed in an accurately designed porous PLA polymer ear scaffold to promote auricle reconstruction.The results indicated that the chondrocytes in the cartilage fragments could maintain the morphological phenotype in vitro.After three months of implantation observation,it was conducive to promoting the subsequent regeneration of cartilage in vivo.The autologous cartilage fragments combined with 3D printing technology show promising potential in auricle reconstruction.

Biodegradation and Mechanical Property of Polylactic Acid/Thermoplastic Starch Blends with Poly (ethylene glycol)

The effects of adding poly （ethylene glycol） （PEG） into polylactic acid/thermoplastic starch blends （PLA/TPS） on the properties were investigated by DSC, SEM and mechanical property-testing. The blends of PLA/TPS blended with increasing content PEG exhibited lower temperature of glass transition （T） and lower temperature of melting （T） as well as higher melt flow index （MFI）, which indicates the plasticization and proeessability of the composites were dramatically improved. The tensile strength, flexural strength and izod impact strength of PLA/TPS （80/20） increased at first and then decreased with increasing content of PEG due to stronger interfacial adhesion. The optimized mechanical property can be obtained for the blend with 3 wt % PEG. The samples containing PEG after soil burial for 5 months showed quicker degradation being accompanied with large weight loss and mechanical properties loss.

阴茎肉膜与Buck筋膜间填充HA/PLA增粗阴茎的疗效及安全性Meta分析

目的系统评价阴茎肉膜与Buck筋膜间填充透明质酸(HA)/聚乳酸(PLA)增粗阴茎的疗效及安全性。方法计算机检索中国知网、万方数据库、中国生物医学文献数据库、PubMed和Embase数据库等,搜集国内外公开发表的有关阴茎肉膜与Buck筋膜间填充HA/PLA增粗阴茎的相关临床研究,检索时限均从建库至2022年8月,采用RevMan 5.3软件进行数据处理和荟萃分析。结果经筛选共纳入4篇文献,含275例患者。Meta分析显示,阴茎肉膜与Buck筋膜间填充HA或PLA均能明显增粗阴茎、改善阴茎外观及提升性生活满意度。相较于PLA组,HA组在阴茎增粗及提升性生活满意度方面存在优势。PLA组阴茎增粗疗效稳定,而HA组术后阴茎周长衰减趋势较明显。但两组在改善阴茎外观方面差异无统计学意义。结论阴茎肉膜与Buck筋膜间填充HA或PLA均能明显增粗阴茎、提升阴茎外观及性生活满意度,且疗效安全。与HA相比,填充PLA的疗效更稳定。

Effects of Selected Printing Parameters on the Fire Properties of 3D-Printed Neat Polylactic Acid(PLA)and Wood/PLA Composites

The effects of selected printing parameters on the fire properties of additively produced composites from neat polylactic acid(PLA)and wood/PLA filaments were investigated.The reaction to fire of the 3D-printed specimens was tested according to the ISO 5660-1 cone calorimeter test method.The results showed that the properties of the specimens when exposed to fire were significantly affected by the incorporation of wood flour into the PLA filament.It was also interesting that PLA specimens had much better reactions to fire than the wood/PLA specimens.Time to ignition was found to be much longer in the 3D-printed PLA specimens.Although the maximal heat release rate was a little higher in the PLA than the wood/PLA specimens,the duration of HRR was longer for the wood/PLA specimens.The initial mass of the specimens was smaller in the wood/PLA composites,but during the radiant heat exposure the mass typically decreased slower than in the PLA specimens.

PEI@PLA气凝胶制备及其染料吸附性能研究

研究聚乳酸接枝聚乙烯亚胺气凝胶(PEI@PLA气凝胶)用于处理染料废水的效果。采用冷冻干燥法制备出具有定向通道形态的PEI@PLA气凝胶,对其外观形貌、化学组成、表面润湿性和压缩性能进行了测试,探讨了PEI@PLA气凝胶在不同温度、pH值和NaCl含量条件下与含染料废水的反应,评估了PEI@PLA气凝胶对染料的吸附效果。结果表明:PEI@PLA气凝胶具有超强的亲水性和在60%恒定应变下优异的压缩性能;PEI@PLA气凝胶对于废水中染料的吸附量随着PEI含量的增加而不断增加,气凝胶中PEI含量为210 mg,其对橙黄G(OYG)和刚果红(CR)染料的吸附能力高达(408.4±14.4)mg/g和(637.5±22.7)mg/g;吸附动力学表明,伪二阶动力学模型更适合分析PEI@PLA-150气凝胶对CR的吸附,同时,CR在气凝胶上的吸附平衡行为更符合朗格缪尔等温线模型。认为:PEI@PLA气凝胶作为染料废水吸附材料展现出优异的吸附性能。

Mechanical Property Evaluation of Glass-carbon-durian Skin Fiber Reinforced Polylactic Acid Composites

The main objective of this work was to study and develop composite materials by experiments with mixtures of synthetic(glass fiber, carbon fiber) and natural fiber(durian skin fiber) reinforcements on a polylactic acid(PLA) matrix composite, because of its excellent mechanical properties. Durian skin fiber(DSF) is a natural waste throughout Thailand, and an alternative to recycling is to realize its potential as a new reinforcement through mixing and the injection molding processes. The flexural strength(σ_(F)) and flexural modulus(E_(F)) of the composites from specimens showed a maximum value by content of durian skin fiber at 10 wt%, for good performance relative to particle dispersion between the matrix and the fiber, and showed a minimum value by content of durian skin fiber at 20 wt%, because the reinforcement material affects the mechanical properties in the experiments.

含预制缺陷PLA蜂窝加筋结构承载力分析

目的 分析不同加筋构型及预制缺陷形式对蜂窝加筋结构抗弯承载能力的影响。方法 以热塑性PLA为基材,通过增材制造技术,制备含预制缺陷蜂窝加筋结构试件,考虑缺陷的长度、数量、深度、方向等因素,采用三点弯曲实验方式,并结合有限元仿真结果进行综合分析。结果 实验得到了结构的位移-荷载关系及破坏情况。线弹性变形阶段,实验与仿真拟合良好,该阶段内,六边构型PLA蜂窝加筋曲板结构承载能力整体优于正六边结构,但后者在后屈曲阶段的残余承载能力更好,且更不易发生断裂。相较于缺陷长度,缺陷深度和缺损肋壁数量对结构承载力的影响更为显著。缺陷方向越趋近宽度方向,结构承载能力越低。结论 实际工程中,应尽可能避免结构中间承载位置处横向加筋肋壁出现缺损,并充分利用正六边与内六边构型蜂窝加筋结构各自的承载优点。

Preparation and Performance of Pueraria lobata Root Powder/Polylactic Acid Composite Films

Petroleum-based materials,such as plastic,are characterized by adverse environmental pollution;as a result,researchers have sought alternative degradable plastics that are environmentally friendly,such as polylactic acid(PLA).PLA has shown great potential to replace petroleum-based plastics.In this study,seven different samples of unmodified Pueraria lobata root powder(PRP)with different contents(i.e.,0,5,10,15,20,25,and 30 wt%)and three different modified PRPs(i.e.,treated with NaOH,NaOH-KH-550,and Formic)were used to reinforce polylactic acid(PLA)via solution casting process.These prepared PRP/PLA composite films were characterized using SEM,FTIR,UV-visible spectra analysis,TG,DSC,weight loss measurement(wt%),and mechanical measurements.The results showed that the PRP modified with KH-550(PRPK)intensified the interaction in the interface region between the PRP and the PLA matrix,thus increasing the tensile strength(54.5 MPa),elongation at break(2.8%),and Young’s modulus(3310 MPa)of the PRPK/PLA biofilms.Contact angle measurement showed that the PRP treatments contributed to the hydrophobicity of films.The transparency of PRP-10/PLA film atλ_(800)was 11.09%,and its UVA and UVB transmittance were 3.28 and 1.16,respectively.After blending PLA with PRP,the PRP/PLA composite films exhibited excellent biodegradability.In summary,PRPK improved the mechanical properties of PLA and prevented the films from ultraviolet light,suggesting that PRPK-5/PLA film could be used as packaging materials.

同轴静电纺抗菌PLA纳米纤维膜的制备及其性能

为了获得释药速率稳定的载药纳米纤维膜,以聚乳酸(PLA)为原料,采用同轴静电纺工艺制备具有皮芯结构的纳米纤维膜。分析了皮层与芯层不同推注速度比下制备的静电纺纳米纤维膜的化学结构、亲水性能、抗菌性能、药物缓释性能。结果表明:复合抗菌剂Ag@TP粒子分布均匀且较为纯净,并能够成功复合到静电纺纳米纤维膜上。当皮层与芯层推注速度比为3∶1时,制得的纳米纤维具有较为均匀的直径分布,并且纤维因其粗糙的表面而具有更大的比表面积,使得相同条件下的纤维膜能够吸附更多细菌,同时疏水性较强且断裂伸长率达到最大。认为:与共混结构的纳米纤维膜相比,具有皮芯结构的同轴静电纺纳米纤维膜可以有效缓解突释问题,能够更好地实现抗菌剂的长效稳定释放。

PLA/PBAT复合膜制备技术及其在食品包装中的应用前景

聚乳酸(PLA)作为可再生可降解的环境友好型新材料,具有极大的环境和经济价值,但其脆性较大成为限制其发展的主要原因,为解决聚乳酸(PLA)韧性差这一问题,将PLA与聚己二酸对苯二甲酸丁二酯(PBAT)共混可显著增强其韧性。PLA/PBAT复合膜作为一种生物可降解材料,因其具有原料丰富、成本低廉和环境友好等优点被广泛应用。该文概述了PLA/PBAT复合膜的不同制备方法及工艺研究现状。总结了复合膜的改性技术包括无机填料、扩链增容、交联剂改性、淀粉改性和协同改性等。最后介绍了PLA/PBAT复合膜在食品包装中的潜在应用及发展前景,以期为PLA/PBAT复合膜在未来食品包装中的研究提供理论参考和新思路。

PLA/PPC/CS复合材料的制备工艺

通过在聚乳酸(PLA)/玉米秸秆(CS)复合材料中引入聚碳酸亚丙酯(PPC)改善韧性,使用熔融挤出与热压成型相结合的方式制备聚乳酸/聚碳酸亚丙酯/玉米秸秆(PLA/PPC/CS)复合材料,以热压时间、热压压力和热压温度为变量,以PLA/PPC/CS复合材料的冲击、弯曲和拉伸性能为评价指标设计单因素试验.试验结果表明,热压时间、热压压力、热压温度对PLA/PPC/CS复合材料的力学性能影响显著.最终优化出的热压工艺条件为热压时间10 min,热压压力7.5 MPa,热压温度190℃.

3D Printing of Polylactic Acid Bioplastic–Carbon Fibres and Twisted Kevlar Composites Through Coextrusion Using Fused Deposition Modeling

Polylactic acid(PLA)bioplastic is a common material used in Fused Deposition Modeling(FDM)3D printing.It is biodegradable and environmentally friendly biopolymer which made out of corn.However,it exhibits weak mechanical properties which reduced its usability as a functional prototype in a real-world application.In the present study,two PLA composites are created through coextruded with 3K carbon fibres and twisted Kevlar string(as core fibre)to form a fibre reinforced parts(FRP).The mechanical strength of printed parts was examined using ASTM D638 standard with a strain rate of 1 mm/min.It has been demonstrated that the FRPs coextruded with 3K carbon fibres had achieved significant improvement in Young’s modulus(+180.6%,9.205 GPa),ultimate tensile strength(+175.3%,103 MPa)and maximum tensile strain(+21.6%,1.833%).Although the Young’s modulus of Kevlar FRP was found to be similar to as compared to unreinforced PLA(~3.29 GPa),it has gained significant increment in terms of maximum tensile strain(+179.7%,104.64 MPa),and maximum tensile strain(+257%,5.384%).Thus,this study revealed two unique composite materials,in which the 3K carbon FRP can offer stiff and high strength structure while Kevlar FRP offers similar strength but at a higher elasticity.

Preparation and Properties of Heat Resistant Polylactic Acid(PLA)/Nano-SiO2 Composite Filament

In order to improve the thermal properties of polylactic acid（PLA） filament,nano-SiO_2 was applied to mix with PLA,then they were spun as composite filament by melt-spinning.The dispersion of nano SiO_2 and the fracture surfaces of filaments were studied by scanning electron microscopy（SEM）.The properties of composite filament,such as orientation degree,mechanical properties,and surface friction properties,were analyzed.The thermal performances of composite filament were analyzed by differential scanning calorimetry（DSC） and thermo gravimetric analysis（TGA）.The results showed that the nano-SiO_2 modified by 5% KH-550 could disperse evenly and loosely in nano-scale,and 1 wt% and 3 wt% nano-SiO_2 dispersed throughout PLA evenly.As the quantity of nano-SiO_2 increased,the properties of composite filament,such as orientation degree,friction coefficient,thermal decomposition temperature,and glass transition temperature,increased more or less.The breaking tenacity increased when 1 wt% SiO_2 was added in PLA,but declined when 3 wt% SiO_2 was added.

PLA/PBS荧光复合材料的制备及性能研究

目的聚乳酸(PLA)具有良好的加工性能和生物相容性,通过加入耐热性能好的聚丁二酸丁二醇酯(PBS)可改善其力学性能和热力学性能,再加入365nm长波荧光粉和色母粒制得的复合材料使其获得荧光防伪性能与色彩性能。方法以聚乳酸为基体,利用双螺杆挤出机将PLA、PBS、荧光粉、普通色母熔融共混后挤出,得到含不同比例PBS的PLA/PBS共混材料,含不同比例荧光粉的PLA/PBS荧光复合材料,以及含不同比例色母的彩色PLA/PBS荧光复合材料,并对复合材料进行力学性能分析、热力学性能分析、红外分析、色彩性能分析、微观形貌分析等。结果通过实验得出,当PLA/PBS质量比为6/4、荧光粉质量分数为5%、色母质量分数为0.5%时综合性能最佳。结论制备了有色PLA/PBS荧光复合材料,赋予复合材料防伪的荧光性能和美观性,并且得到热力学性能有所改善的环境友好型复合材料,拓宽了PLA在3D打印领域和现代工业领域的应用。

熔喷非织造布用磁性Fe_(3)O_(4)@SiO_(2)/PLA共混材料的性能分析

采用溶剂热法制备磁性四氧化三铁(Fe_(3)O_(4))纳米粒子,随后利用改进的溶胶-凝胶法制备四氧化三铁与二氧化硅复合纳米粒子(Fe_(3)O_(4)@SiO_(2)),再以聚乳酸(PLA)为基体,通过熔融共混工艺制备Fe_(3)O_(4)@SiO_(2)/PLA共混材料。采用扫描电子显微镜(SEM)、X射线衍射仪(XRD)、差示扫描量热仪(DSC)、万能拉伸试验机、熔体流动速率仪(MFR)和振动样品磁强计(VSM)等对共混材料的形貌、结晶结构、热性能、力学性能、熔体流动速率和磁性能进行表征分析。结果表明:添加量为1%(以质量分数计)的Fe_(3)O_(4)@SiO_(2)纳米粒子可在PLA基体中均匀分散,与基体有良好的界面相容性。相比于纯PLA,Fe_(3)O_(4)@SiO_(2)/PLA共混材料的热性能变化不大,当Fe_(3)O_(4)@SiO_(2)的添加量为1%时,共混材料的结晶度最大。随着Fe_(3)O_(4)@SiO_(2)质量分数的增加,共混材料的拉伸强度呈先增加后下降的趋势,而断裂伸长率没有明显变化。在同一温度下,Fe_(3)O_(4)@SiO_(2)/PLA共混材料的熔体流动速率明显增加,熔融指数大于150 g/(10 min),流动性较好,能满足熔喷加工可纺性的要求。另外,Fe_(3)O_(4)@SiO_(2)/PLA共混材料的饱和磁化强度会随着Fe_(3)O_(4)@SiO_(2)质量分数的增加逐渐增加。研究结果可为开发熔喷非织造布用磁性Fe_(3)O_(4)@SiO_(2)/PLA共混材料提供理论依据。