次磷酸铝对木粉/高密度聚乙烯复合材料阻燃及力学性能的影响

以次磷酸铝(AHP)为阻燃剂对高密度聚乙烯(HDPE)基木塑复合材料进行阻燃改性。采用锥形量热、垂直燃烧、极限氧指数(LOI)系统评价复合材料的阻燃性能。通过拉伸强度、无缺口冲击强度、弯曲强度等测试,探讨了复合材料的力学性能。并通过热失重分析、扫描电镜对AHP阻燃木粉/HDPE(WF/HDPE)复合材料的机理进行分析。结果表明,AHP、木粉(WF)及WF中的结合水构成膨胀阻燃体系,AHP质量分数为30%时,WF/HDPE复合材料达到垂直燃烧V-0级别,LOI值达到25.5%,阻燃性能显著提高。AHP的加入使WF/HDPE复合材料的力学性能有所下降。     

聚乙烯木塑复合材料的流变行为及阻燃性能

采用旋转流变仪研究了聚乙烯基木塑复合材料的动态流变性能。通过与基体树脂流变行为的比较,发现木塑复合材料呈现典型的热流变复杂行为,木塑样品的临界频率较之聚乙烯移向更低的频率值,且其弹性模量、损耗模量对温度敏感性均显著高于聚乙烯。Cole-Cole曲线和扫描电镜(SEM)照片发现,木塑复合材料呈现多相体系结构。利用锥形量热仪和极限氧指数(LOI)方法探索了木塑配方、阻燃剂用量对聚乙烯基木塑复合材料的阻燃性能的影响,研究发现聚磷酸铵(APP)有助于促进膨胀炭层的形成,从而显著改善复合材料的阻燃性能。     

玻璃纤维/木塑混杂复合材料及其协同增强效应

将固体废弃物中的高密度聚乙烯(HDPE)回收后与废弃的木纤维以及短切玻璃纤维进行复合,成功地制备出混杂型木塑复合材料。研究结果表明,采用长径比较大的L型玻璃纤维增强时,木塑复合材料的弯曲强度、弯曲模量以及冲击强度同时得到提高,而采用长径比较小的玻璃纤维增强时,弯曲性能和冲击强度均呈现下降趋势。玻璃纤维增强木塑复合材料的主要破坏模式为玻璃纤维的拔出、玻璃纤维断裂、界面脱粘等。在玻璃纤维/木纤维/HDPE混杂体系中由于组元之间的协同增强作用,形成了特殊的三维网络结构,木塑复合材料的力学性能得到显著改善。     

聚磷酸铵/纳米SiO_2阻燃水稻秸秆/聚乙烯复合材料的研究

采用聚磷酸铵(APP)与纳米SiO_2阻燃水稻秸秆/高密度聚乙烯(HDPE)木塑复合材料,通过力学性能、极限氧指数、垂直燃烧、热重分析(TGA)和扫描电镜等研究了复合材料的界面,力学,阻燃性能及热降解行为。研究结果表明,当添加17%(wt,质量分数,下同)的APP与3%的纳米SiO_2时达到V-0级,极限氧指数提高了30.8%。拉伸强度提高了42.8%,弯曲强度提高51.9%,冲击强度提高了73.9%。TGA与SEM研究表明,APP与纳米SiO_2对木塑复合材料具有阻燃协效效应,APP使秸秆粉碳化同时膨胀发泡,纳米SiO_2加固炭层是阻燃的主要原因。     

铝矾土改性竹粉/HDPE复合材料性能

为制备高性能的木塑复合材料,扩展其应用领域,采用A-171硅烷偶联剂对竹粉进行表面改性,并添加一定量的铝矾土,经热压成型制备了竹粉/高密度聚乙烯(HDPE)复合材料。分析了铝矾土用量对竹粉/HDPE复合材料力学性能、耐热性和摩擦性能的影响。采用XRD分析了铝矾土的结晶特性,利用SEM和EDS分析了竹粉/HDPE复合材料的断面形貌和表面元素分布情况。结果表明:加入适量铝矾土后,竹粉/HDPE复合材料的力学强度、耐热性及耐磨性能得以改善。铝矾土在竹粉/HDPE复合材料基体中分布均匀,可有效承担载荷,同时提高了竹粉/HDPE复合材料的结晶性能,降低了竹粉/HDPE复合材料在外在应力下引起的变形和破坏;但铝矾土用量过高,分布不均匀,容易形成团聚现象,导致竹粉/HDPE复合材料的力学强度和耐磨性降低,线性热膨胀系数增大。     

彩色木塑复合材料的老化性能

向桦木粉/高密度聚乙烯(HDPE)复合材料中添加白色、黄色和红色着色剂,采用热压成型工艺制备彩色木塑复合材料。研究着色剂种类及含量对木塑复合材料力学性能和表面颜色的影响,同时分别考察彩色木塑复合材料在户外自然老化和紫外光加速老化箱中的老化情况,分析讨论其老化机制。结果表明:添加着色剂可提高木塑复合材料的力学性能,改善材料的外观颜色;木塑复合材料的力学强度和总色差随着色剂用量的增加而逐渐增大,当着色剂用量为3.5wt%时,复合材料的性能达到最佳;木塑复合材料经老化实验后表面褪色明显且力学强度显著降低,但自然老化后其性能下降更明显。这主要是因为木塑复合材料在老化过程中,不仅受到紫外光的照射发生了光降解,而且长期被雨水冲刷导致材料表面的桦木纤维及着色剂大量剥落,降低了材料界面结合强度,从而导致材料性能明显下降。     

木质素-木粉/高密度聚乙烯复合材料的制备及阻燃性能

将生物质可再生资源木质素（Lig）和一种P-N-B系阻燃剂单独或复配使用添加到木粉/高密度聚乙烯（WF/HDPE）混合物中,通过挤出成型的方式制备Lig-WF/HDPE复合材料,探究了Lig对阻燃型Lig-WF/HDPE复合材料阻燃性能的影响。锥形量热仪测试结果表明,Lig的加入能有效降低Lig-WF/HDPE复合材料的热释放速率,提高残余物质量。Lig添加量为15wt%时Lig-WF/HDPE复合材料的阻燃效果最佳,但发烟量较大。Lig与P-N-B系阻燃剂复配使用可使（P-N-B）-Lig-WF/HDPE复合材料的发烟量明显降低,阻燃性能进一步提高。Lig添加量为5wt%、P-N-B系阻燃剂添加量为10wt%时,（P-N-B）-Lig-WF/HDPE复合材料的极限氧指数从未添加阻燃剂WF/HDPE复合材料的24.3提高到27.3,且力学性能较两种阻燃剂单独使用时有提升。      

基于数字图像相关技术的木纤维/高密度聚乙烯复合材料界面力学行为

以木纤维/高密度聚乙烯(WF/HDPE)复合材料界面应变为研究对象,采用数字图像相关技术(DIC)探究WF(质量分数为10wt%~40wt%)及改性聚磷酸铵(mAPP)阻燃剂(质量分数为10wt%~25wt%)对WF/HDPE复合材料应变分布及传递的演变规律,并结合力学性能测试和SEM对其拉伸性能、冲击性能、界面结合进行分析。结果表明:随着WF添加量从10wt%增至30wt%,WF/HDPE复合材料应变传递较为平稳,由受力两端向复合材料轴中心均匀传递,当WF添加量为30wt%时,高应变在复合材料上约1/2区域得到了有效传递,此时,复合材料的拉伸强度和冲击强度分别达21.5 MPa和10.22 kJ/m2。但当WF添加量增加至40wt%时,WF/HDPE复合材料的拉伸承载端部出现应力集中,阻碍了其内部应变的均匀传递。mAPP阻燃剂加剧了WF与HDPE界面间的脱粘行为,削弱了WF与HDPE之间的机械啮合作用力。当mAPP阻燃剂添加量从10wt%增加至25wt%时,WF/HDPE复合材料开始出现多个分散的高应变区域,全场应变传递出现不规则分布。当mAPP阻燃剂添加量达25wt%时,WF/HDPE复合材料应变分布呈两极化趋势,导致复合材料的拉伸强度和冲击强度分别降低为15.5 MPa和5.49 kJ/m2。      

亚临界流体挤出法制备高密度聚乙烯/木粉复合材料

采用亚临界流体挤出法制备高密度聚乙烯(HDPE)/木粉复合材料,研究了亚临界流体种类(去离子水、正丙醇和乙醇)与温度对木塑复合材料(WPC)综合力学性能的影响。实验利用傅立叶变换红外光谱、差示扫描量热分析和扫描电镜分别对复合材料的化学组成、热变形温度和界面形貌作了相应的研究。结果表明,亚临界流体的高温高压可以对木纤维起到很好的溶胀作用,一定程度上打破了木素、半纤维素对纤维素的包裹作用,明显促进基体与木纤维之间的机械捏合与酯化反应,增加界面强度。在亚临界流体条件下,尤其在亚临界乙醇条件下,木粉在HDPE树脂基体中具有优异的分散性,拉伸断面处的断裂形式主要以基体与纤维断裂为主,说明HDPE/木粉的WPC具有较好的界面结合强度。     

聚乙二醇改性相变微胶囊制备MicroPCMs-WF/HDPE复合材料物理力学性能

以正十二烷醇(DA)为芯材,密胺树脂(MF)和聚乙二醇改性密胺(PMF)树脂为壁材制备了相变微胶囊(MicroPCMs),并分别添加到木粉/高密度聚乙烯(WF/HDPE)复合材料中,获得了具有相变蓄热能力的MicroPCMs-WF/HDPE复合材料。采用SEM、FTIR和纳米压痕等方法对MicroPCMs的表面形态、力学性能进行了分析与表征,同时对MicroPCMs-WF/HDPE复合材料的物理力学及热性能进行了测试。结果表明:经聚乙二醇改性后,改性微胶囊(PMF-MicroPCMs)的弹性模量和硬度较未改性微胶囊(MF-MicroPCMs)分别增加了13.9%和30.0%;MicroPCMs-WF/HDPE复合材料的熔融温度区间(22.2~28.7℃)满足人体舒适温度范围,较纯WF/HDPE复合材料温度变化速率明显减缓;相比纯WF/HDPE复合材料,MicroPCMs-WF/HDPE复合材料的吸湿性、冲击强度和表面硬度增加,弯曲和拉伸性能下降;PMF-MicroPCMs-WF/HDPE复合材料的性能均优于MFMicroPCMs-WF/HDPE复合材料,且达到了木塑装饰板材的力学性能标准要求。     

Effect of Permeable Crystalline Material on Steel Reinforcement Corrosion of Concrete

Permeable crystalline materialcan permeate into pores and cracks of concrete and catalyze the reaction between Ca(OH) 2and unhydrated cement to generate a great quantity needle non-soluble crystals, which can stop up the pores and cracks of concrete, and increase the impermeability of concrete. This paper reported the results of a study conducted to evaluate steel reinforcement corrosion of concrete specimens uncoated and coated with permeable crystalline material as well as mixed with the permeable crystalline material. The properties evaluated for corrosion test were water impermeability, water absorption, compressive strength and potential. The results of water impermeability, water absorption, compressive strength clearly showed that the permeable crystalline material could prohibit water, any soluble salts and moisture from penetrating the concrete to cause corrosion, leaking, and other problems, and it did increase the compressive strength, which was favorable for protection of corrosion of reinforcing steel. Moreover, it was concluded from the potential-time curve that the steel reinforcement of uncoated specimen was in the state of activation whereas that of other specimens coated and mixed with the permeable crystalline material was in the state of inactivation. Above all, it was indicated that the permeable crystalline materialis very effective to protect the steel reinforcement of concrete from corrosion.     

The Research and Application About "Dry Peeling Off" Technology for Airplane Surface Paint Layer

In this paper, the principle of spurting take off lacquer were introduced; and with orthogonal method the unsaturate polyester was prepared ;it was easy to peel airplane paint layer off with this material and equipment.     

Quality Study of Honeycomb Core Shaping Without Wax Stabilization

Sandwich panels utilizing honeycomb cores result in lightweight, high-strength units that are very rigid. Indeed, they give honeycomb panels the best strength-to-weight ratio of any construction type available. Conventionally, the wax is poured into the cell of the core to strengthen the structure and prevent the core from being crushed during milling. Much time and labor is required to wax, mill, and clean the cores. In this study, the process of pouring wax into the core was skipped. In other words, the cutter directly milled the core. Experiments showed that the compressive strength of the core produced without wax stabilization was only 3% lower than that of cores produced using the traditional method. In addition, the drum peel strengths of cores produced without wax stabilization were 38.4% higher than cores produced using the traditional method, in which residual wax seriously polluted the adhesive. It was also found that eliminating the wax process can reduce costs.     

In-process thermal treatment of polylactic acid in fused deposition modelling

Polylactic acid (PLA) is one of the most widely used open source fused filament fabrication materials due to its ease of extrusion, biodegradability, and mechanical strength. The mechanical strength of PLA largely depends on the proper growth of its semi-crystalline structure, which can be severely impaired by a low rate of crystallization, particularly in open source printers. This can be further aggravated by the non-uniform thermal distribution of heat that causes improper curing among the extruded beads of the printing material. As a result, PLA printed on open source printers does not achieve the best mechanical properties. This research, for the first time, proposes an additive-free solution implemented through a detailed set of experimentation to improve the curing rate through in-process temperature variations to cure the joints among the beads. Scanning electron microscopy (SEM), differential scanning calorimetry (DSC) and Fourier transform infrared (FTIR) spectroscopy is used to confirm the improvements in the bead joints. This work is conducted in two phases of experiments. In the first phase, a full factorial ANOVA is used to investigate various process parameters and the important variables are used in the second phase to print test specimens in four different sets.     

Investigation of the Corrosion Behaviors of HVOF-Sprayed Carbide Cernet Coatings in Molten Al-Zn-Si Alloy Bath

In continuous hot-dip galvanization process the corrosion and chemical stability of the sink roll in the galvanizing bath are important problem which effects on the quality and productivity. In order to protect the sink roll the carbide cermet and/or ceramic coatings were deposited on the surface of the sink roll. The WC-, Cr3 C2-cermet coatings were deposited by high velocity oxygen fuel (HVOF) spray, respectively. The coating samples were immersed in molten Zn-alloy containing 50 wt % aluminum at 833 K for 24 hr and 144 hr, respectively. The inter-diffusion and inter-reaction of Zn, Al and elements in coating and corrosion behaviors of these coatings were investigated by XRD, SEM and EPMA etc. The corrosion mechanisms of the carbide cermet coatings and ceramic coatings in molten High Al-Zn-alloy were approached.     

Fundamental study of adhesion of ice to cooling solid surface (Discussion on influence of copper oxide layer on ice adhesion force)

In many situations, ice often adheres to a cooling solid surface, frequently causing serious accidents. It is critical to clarify the mechanism of ice adhesion to the cooling surface in order to prevent ice adhesion. In a past study, the shearing stresses of two kinds of test plates with a copper surface having the higher thermal conductivity were measured. The shearing stress corresponds to ice adhesion force. Both shearing stresses were significantly different; however, the cause remains unclear.Therefore, the present study focuses on an oxide layer as the main factor causing the difference of both shearing stresses; the influence of the oxide layer formed on shearing stress was discussed. And in the removal and reformation processes of the oxide layer, the time variation of the shearing stress was clarified. Moreover, the relationship between the state of the copper surface and the shearing stress was also clarified by surface analysis.     

重塑标准推行格局 推动LED照明的普及（英文）

正When you are enjoying the green,energy-saving and healthy lighting of IKEA LED luminaire,you may not realize that most of IKEA’s LED bulbs are produced by the LED luminaire smart manufacturing system of Hangzhou Zhongwei Photoelectricity CO.,LTD(ZVISION).No longer enclosed in the laboratory,the product standards are brought into the factory workshop and even to the entire production process.Thus,the standards are promoted and applied in a favorable way by enterprises,benefitting consumers with high quality products.     

Chinese Experts Contribute to ISO＇s New Toy Standards

正The international standard,ISO 8124-6,Safety of toys–Part 6:Certain phthalate esters in toys and children’s products,was officially issued by ISO worldwide on August 15.It was the first time for Chinese experts to lead the ISO standard development in toys industry.The standard was drafted by a group of Chinese experts from SAC/TC for toys and relevant Chinese departments and finally completed by a dedicated international group of experts.ISO 8124-6 makes a substantive breakthrough in the aspects of the scope of toys,limitation of plasticizer types,control of test cost,accuracy of test,operation convenience,etc.,offering the operational guidance for toy manufactures and testing laboratories.     

中国质量(北京)大会(英文)

正Themed on"quality,innovation,development",the first China Quality Conference(Beijing)was held in the Great Hall of the People on September 15.Chinese Premier Li Keqiang delivered an important speech at the conference.State Councilor Yang Jing and Wang Yong attended the conference with over 600 domestic and international representatives from foreign,regional and international quality organizations     

National Working Meeting on Land and Resources Standardization

正The National Working Meeting on Land and Resources Standardization was held in Beijing on July 15,2014.Wang Min,the Deputy-Minister of the Ministry of Land and Resources,and Yin Minghan,the Chief-Engineer of SAC addressed the meeting.Representatives from relevant competent departments and technical committees were present.The meeting aims to summarize work,discuss existing problems and make clear working thoughts,promoting standardization work of land and resources to a new level.Wang Min pointed out that the standardization work of land and resources should be centered on the basic principles of"protecting land and resources dutifully,intensively and economically utilizing land and resources,and making all-out efforts to safeguard the public’s rights and interests",highlighted the