A soft sensor for industrial melt index prediction based on evolutionary extreme learning machine

In propylene polymerization(PP) process, the melt index(MI) is one of the most important quality variables for determining different brands of products and different grades of product quality. Accurate prediction of MI is essential for efficient and professional monitoring and control of practical PP processes. This paper presents a novel soft sensor based on extreme learning machine(ELM) and modified gravitational search algorithm(MGSA) to estimate MI from real PP process variables, where the MGSA algorithm is developed to find the best parameters of input weights and hidden biases for ELM. As the comparative basis, the models of ELM, APSO-ELM and GSAELM are also developed respectively. Based on the data from a real PP production plant, a detailed comparison of the models is carried out. The research results show the accuracy and universality of the proposed model and it can be a powerful tool for online MI prediction.

Multi-index analysis of the melting process of laterite metallized pellet

Herein, a multi-index analysis of the nickel content of an alloy, output rate of the alloy, nickel recovery rate, and iron recovery rate during the melting of laterite metallized pellets was performed. The thermodynamic reduction behavior of oxides such as NiO, FeO, Fe_3 O_4, and Cr_2 O_3 was studied using the FactSage software, which revealed that SiO_2 is not conducive to the reduction of iron oxides, whereas the addition of basic oxides such as CaO and MgO is beneficial for the reduction of iron oxides. On the basis of a comprehensive analysis to achieve greater nickel recovery and lower iron recovery rates, the optimum experimental parameters in the orthogonal experiment were A3 B1 C3(t = 30 min, C/O = 0.4, R = 1.2); the indicators wNi, φalloy, ηNi, and ηFe had values of 15.0 wt%, 12.1%, 44.9%, and 96.4%, respectively. In single-factor experiments, increasing basicity(R) substantially improved the separation effect in the low-basicity range 0.5 ≤ R ≤ 0.8 but not in the high-basicity range 0.8 ≤ R ≤ 1.2. Similar results were obtained for the effect of the C/O ratio. Moreover, the recovery rate of nickel increased with increasing recovery rate of iron.

Biocomposites Based on Thermoplastic Starch and Granite Sand Quarry Waste

Granite stone is a by-product of the rock crushing manufacturing.An industrial waste in powder form that causes health problems and environmental pollution.Fine particles fraction can be used as a partial replacement of sand in concrete manufacture.In this work,an alternative exploitation of this waste fraction is proposed.Granite sand(GS)with particles mean size of ~1μm was employed as thermoplastic starch(TPS)filler at different concentrations.Biocomposites were obtained by melt-mixing and thermo-compression,achieving translucent and easy to handle films.A good GS dispersion within the matrix was evidenced by SEM.Mineral presence induced a shift of starch’s melting point to higher values and a better thermal resistance.TPS UV absorption capacity was increased ~90% by GS addition.An increment in TPS Young’s modulus and maximum tensile stress of 5 and 3 times,respectively was observed by adding 5%w/w GS.

Extrusion of Thermoplastic Starch: Effect of “Green” and Common Polyethylene on the Hydrophobicity Characteristics

Novel plastics that are biodegradable, environmentally benign, and made from renewable natural resources are currently being researched as alternatives to traditional petroleum-based plastics. One such plastic, thermoplastic starch (TPS) is produced from starch processed at high temperatures in the presence of plasticizers, such as water and glycerol. However, because of its hydrophilic nature, TPS exhibits poor mechanical properties when exposed to environmental conditions, such as rain or humidity. The overall objective of this research work was to produce a thermoplastic starch based material with low water absorption that may be used to replace petroleum-based plastics. With a recent emergence of “green” polyethylene (GPE), sourced from renewable feedstock, it has become possible to develop novel biodegradable polymers for various applications. In this work, GPE was melt blended with starch in three different ways;reactive extrusion of GPE and starch facilitated by maleic anhydride (MAH) and dicumyl peroxide (DCP), melt blending of GPE and starch by extrusion, and melt blending of maleated polyethylene and starch by extrusion. Comprehensive testing and analysis has shown that all methods reduced water absorption significantly with some variations across the board.

相变沥青混合料融雪效果及评价指标研究

为确定DTC相变材料(phase change material,PCM)在沥青路面中的融雪效果及评价指标,通过设计室内和室外融雪试验,以未掺加相变材料的沥青混合料试件作为对照组,研究并分析低温下相变沥青混合料的融雪效果。结果表明:相变材料在沥青混合料中具有明显的调温作用,掺量越大,融雪效果越明显;相变材料掺量为0.5%、积雪厚度分别为1.5 cm和3.0 cm时,与普通沥青混合料相比,相变沥青混合料融雪速率分别提高19.0%和16.0%。基于室内和室外融雪试验,提出以积雪厚度变化率(Δh)和余雪覆盖率(residual snow coverage,RSC)作为相变沥青混合料融雪效果的综合评价指标。

高抗冲薄壁注塑聚丙烯专用料的工业生产

采用新型工艺技术方法生产高抗冲薄壁注塑聚丙烯专用料K1870-E,在保证原有薄壁注塑聚丙烯专用料高流动性、高刚性的基础上,加入微量乙烯从根本上改变聚丙烯高分子链结构,使其透光性得到有效提升,同时乙烯丙烯共聚而成的橡胶相结构可有效提升产品的冲击性能,此外加入专用成核剂产品透明度及韧性可进一步提高,使产品兼具刚韧平衡性。同时在原有单一改性剂二异丁基二甲氧基硅的基础上,引入氢调性能更优的另一种改性剂四乙氧基硅烷共同作为外给电子体,通过调配不同进料比例在不影响产品等规度的前提下降低聚合反应釜中氢气组分含量,达到彻底解决使用单一改性剂时氢气含量高导致聚合反应釜压力无法控制的技术瓶颈,最终实现高抗冲薄壁注塑聚丙烯树脂的长周期连续化工业生产。高抗冲薄壁注塑聚丙烯专用料K1870-E熔融指数为70g/10min,产品乙烯含量为0.5%(质量分数),简支梁缺口冲击强度(23℃)达2.5kJ/m^(2),雾度达48%。

聚丙烯熔融指数的影响因素

聚丙烯分子量大小取决于聚丙烯的聚合程度,由于甲基的不同排列顺序构成不同的结构包括等规聚丙烯、无规聚丙烯和间规聚丙烯。熔体质量流动速率是塑料加工变形的流变学指标,也叫熔融指数。聚丙烯的熔体质量流动速率必须进行精密的工艺调控,将其控制在合格范围之内,以保障塑料制品的各项性能,从而保证产品的质量。文中从氢气、原料及催化剂3个方面探讨了对聚丙烯熔体性能的重要影响,结果显示,氢气用量及催化剂性质是决定聚丙烯熔融指数的主要因素。

共聚型聚酰亚胺的合成及其性能研究

以双酚A型二醚二酐(BPADA)和3,3’,4,4’-四羧酸二苯醚二酐(s-ODPA)为二酐类单体,4,4’-二氨基二苯醚(4,4’-ODA)为二胺类单体,采用两步法,合成了一系列共聚型聚酰亚胺,并利用傅里叶红外光谱对所得产物的化学结构进行了表征,通过热重分析、差示扫描量热、动态热机械分析对所得聚合物的热稳定性、玻璃化转变温度、高温机械性能等进行了分析。随后在一定条件下制备了相应塑料,并对其力学性能进行了对比分析。结果表明:随着聚合物中具有柔性基团的二酐单体BPADA引入量的增加,所得聚合物的玻璃化转变温度和力学性能(弯曲强度、拉伸强度等)降低,而熔体质量流动速率明显升高,即热塑加工性能提升。

不同类型外给电子体对Ziegler-Natta催化剂氢调敏感性的影响

基于延安能化公司INNOVENE气相法聚丙烯生产技术,通过对生产不同熔融指数的均聚物、无规共聚物及抗冲共聚物进行研究,统计分析出二异丁基二甲氧基硅烷、二异丙基二甲氧基硅烷、四乙氧基硅烷等不同类型外给电子体对Ziegler-Natta催化剂氢调敏感性的影响,建立简便易算的数学公式,从而可快速估算出不同产品熔融指数对应的反应釜氢气丙烯摩尔浓度比,为生产其他不同熔融指数的产品提供理论和技术依据。

电容器薄膜用聚丙烯树脂的发展现状

随着聚丙烯材料应用范围的不断拓展,低灰分含量聚丙烯树脂在电子、电器、纺织和医疗等领域发挥着重要作用。其中,聚丙烯电容器薄膜的开发和应用,使电子和电容器的质量和性能大幅提升,有力地推动了电力系统的建设与发展。介绍了双向拉伸聚丙烯电容器薄膜的主要特点和影响电容器薄膜用聚丙烯树脂性能的主要参数(灰分含量、等规度、熔体流动速率),综述了国外电容器薄膜用聚丙烯树脂的生产现状、国内主要化工企业在该技术领域的研究进展和聚丙烯树脂脱灰工艺,展望了生产电容器薄膜用高纯净聚丙烯树脂技术的发展方向,即采用超高活性催化体系在反应器内直接生产高纯净聚丙烯而免去洗涤脱灰工艺。

无碱玻璃熔体表面张力的研究与应用

基于玻璃熔体表面张力测试技术,研究玻璃纤维行业中,典型无碱配方玻璃(E玻璃)在高温液体状态下(即玻璃液)的熔体表面张力。在此基础上,结合无碱玻璃熔体的粘度性能,对其应用进行探究。结果表明:玻璃纤维行业中,CaO-B_(2)O_(3)-SiO_(2)-Al_(2)O_(3)无碱玻璃,在1200~1500℃时,熔体的表面张力随着温度的升高而增大,有着近似线性的关系;等质量分数的B2O3替代CaO时,无碱玻璃熔体的表面张力减小,同时对温度的变化也更加敏感;对于玻璃纤维用典型无碱玻璃,其熔体可纺性指标k(表面张力γ与黏度η的比值)在2.4~10.4 mm/s范围内。

球形Ziegler-Natta催化剂在中石化环管聚丙烯工艺装置的应用

在中国石化茂名分公司国产第二代环管聚丙烯工艺装置上,采用国产球形Ziegler-Natta催化剂(催化剂1)生产了PPH-T03、N-Z30S和PPR-M55-S三种牌号聚丙烯。研究了球形催化剂在生产三种牌号聚丙烯时的催化剂效率和氢调性,同时分析了各牌号聚丙烯的粉料粒径及产品质量,并将其与另一个国产球形催化剂(催化剂2)进行了对比分析。实验结果表明,与催化剂2相比,两种催化剂生产的聚丙烯在产品质量上相当,但催化剂1的氢调性更加优异,更有利于装置生产高熔融指数产品。

双环管聚丙烯均聚牌号熔融指数预测模型的建立

聚丙烯分子量在工业生产中用熔融指数(MFR)表征,掌握熔融指数与相关工艺数据之间的定量关系,能给实际生产工作提供明确的指导。为此,对双环管聚丙烯工艺的均聚牌号建立了熔融指数预测模型。通过实际生产数据,将模型参数拟合优化,得到三种均聚牌号的模型参数。结果表明,PPH-T03、PPH-Y26、PPH-FCP80三种均聚牌号的熔融指数模拟值的平均相对误差分别为2.49%、2.92%、2.86%,符合实际生产要求,可为实际生产提供指导,为切换牌号过程的参数调整提供参考。

Impact of Using Stevia on Physicochemical, Sensory, Rheology and Glycemic Index of Soft Ice Cream

The aim of this study was to formulate and develop a low calorie and low glycemic index (GI) of soft ice cream by using mixture of sucrose and Stevia. Five different formulations of ice cream were produced by using different proportions of sucrose and Stevia. Physicochemical characteristics, hedonic sensory evaluations and glycemic index determination of products were carried out by following conventional methods. Replacement of sucrose with Stevia resulted in a significantly lower viscosity and brix with a higher overrun and melting rate in a dose dependent manner. Total replacing of sucrose with Stevia resulted in significant reduction in caloric value from 143.03 to 105.25 Kcal and GI from 79.06 ± 4.0 to 72.18 ± 5.27 as compared to those of sucrose based formulation (p 0.05) indicating a 37.78% and 6.88% reduction, respectively. TB had the best sensory acceptance among all the treatments. We concluded that substitution of sucrose with Stevia may be a choice to produce low caloric and GI ice creams. However, using mixture of the two sweeteners improves sensory acceptance of the formulations.

热塑性淀粉共混改性PBAT纤维的制备及其性能研究

针对聚己二酸丁二醇酯-对苯二甲酸丁二醇酯(PBAT)在熔融纺丝时易发生热熔黏连、纤维强度低等问题,通过共混改性的方法引入热塑性淀粉(TPS),制备了TPS质量分数为1%、5%、10%的PBAT/TPS共混切片及共混纤维,对PBAT/TPS共混切片的稳定性、熔融结晶性能及共混纤维的形貌结构、力学性能和回弹性能进行了表征。结果表明:质量分数为1%、5%的TPS能够在PBAT中实现均匀分散,且TPS在PBAT中能够起到结晶成核剂的作用,提升PBAT结晶温度与结晶速率,同时TPS的多羟基结构能够连接起PBAT的分子链,提升PBAT熔体的稳定性与可纺性;在共混纺丝中,添加TPS质量分数为1%、拉伸倍数为2.4时,PBAT/TPS共混纤维表现出较好的力学性能及回弹性能,断裂强度达2.2 cN/dtex,断裂伸长率为96.8%,在30%定伸长下弹性回复率达97.67%。

高熔融指数聚乙烯的性能分析及熔喷探索

对四种高熔融指数聚乙烯(PE)熔喷专用料的性能进行了表征和分析,研究了不同PE的热性能、非等温结晶性能、热稳定性和结晶性能。结果表明:相比D-PE-390、PE-50,PE-120、PE-735具有更高的结晶度、结晶速率及热降解速度;四种PE的热分解温度都在400℃以上,均能满足熔喷的需求。对PE熔喷料进行了熔喷预试验,研究了温度对熔喷纤维微观形貌及直径的影响,研究发现,在210℃下,熔喷纤维分布均匀且平均直径在2μm以下,与市售熔喷聚丙烯纤维相比有一定优势,在熔喷非织造领域具有潜在应用价值。

高熔融指数聚乳酸母粒的制备及其熔喷材料的可纺性

为制备综合性能优异的聚乳酸(PLA)熔喷非织造材料,探究不同熔融指数PLA母粒对其熔喷可纺性的影响。以纺丝级PLA为原料,采用催化降解法分别设计制备了熔融指数为200、400、600、1000、1400 g/(10 min)的PLA母粒,对其分子质量及其分布、流变性能、结晶性能以及热稳定性进行研究;然后进一步制备不同熔融指数的PLA熔喷材料,分析其形貌结构、纤维直径、力学性能。结果表明:随着熔融指数的升高,PLA熔喷母粒的重均分子量从75566 g/mol降低到29857 g/mol,分子质量分布变宽,而玻璃化转变温度、热结晶性能及热稳定性无明显变化;随着熔融指数的升高,熔喷纤维的直径逐渐减小,纤维直径为0.5~7μm,且熔喷材料的纵、横向断裂强度显著降低;当PLA熔喷母粒的熔融指数在400~600 g/(10 min)之间时,熔喷材料的可纺性和力学性能最佳。

PA1211-b-PEG弹性体的制备与性能

采用熔融缩聚法,以十一碳二元酸、十二碳二元胺和聚乙二醇(PEG)为反应原料,钛酸四丁酯为催化剂,制备了5种不同相对分子质量聚酰胺链段的PA1211-b-PEG弹性体。通过红外光谱(FTIR)表征了PA1211-b-PEG的化学结构,采用广角X射线衍射(XRD)、差示扫描量热分析(DSC)、热失重分析(TG)、扫描电子显微镜(SEM)和力学性能测试等,研究了硬段分子量对PA1211-b-PEG弹性体的结晶形态、熔融和结晶温度、热稳定性、断裂面微观形貌和力学性能的影响。研究结果表明,双端羧基的PA1211预聚体与双端羟基的PEG发生了酯化反应,成功制备了PA1211-b-PEG弹性体。同时,随着硬段分子量的减小,PA1211-b-PEG弹性体的熔融温度由179.5℃减小至172.2℃、结晶温度由152.3℃减小至145.6℃,热分解温度逐渐向低温区移动;软段和硬段间存在显著的微相分离。另外,随着硬段相对分子质量的减小,PA1211-b-PEG弹性体的拉伸强度由35.5 MPa减小至14.8 MPa、拉伸模量减小了约640 MPa,冲击强度由6.7 kJ/m^(2)增大至11.9 kJ/m^(2),断裂伸长率增大了约200%。

基于Unipol工艺的中熔融指数高抗冲性能聚丙烯的工业化开发

在Unipol工业装置上采用两级串联反应工艺对中熔融指数高抗冲性能聚丙烯产品进行五次工业化开发试验,并获得成功,总结出了“抑一扬二”两级聚合反应控制理念。通过优化反应器Ⅰ,Ⅱ的床重和温度、三乙基铝的注入量及方式、Al与选择性控制剂的摩尔比、反应器Ⅰ氢气加注量、反应器Ⅱ乙烯分压等,有效增加了产品中乙丙橡胶相含量,橡胶相颗粒粒径分布及空间分散均匀,产品抗冲性能表现优良,刚韧获得较好平衡;通过对反应器Ⅰ的流化状态及空间反应强度的优化控制,解决了工业试验初期出现的反应器Ⅰ结块、结片、壁温波动大的问题,实现了连续平稳生产。

iRoot SP冷侧压法在恒牙根尖周炎根管填充中的应用效果及对牙周指标的影响

目的:探讨根管充填材料(iRoot SP)冷侧压法在恒牙根尖周炎根管填充中的应用效果及对牙周指标的影响。方法:选取2019年10月-2022年5月济宁市中医院收治的302例恒牙根尖周炎患者,应用随机数字表法将其分为观察组(n=151)和对照组(n=151)。对照组接受热牙胶垂直加压法进行根管填充治疗,观察组接受iRoot SP冷侧压法进行根管填充治疗。对比两组填充效果、临床效果、治疗前后疼痛程度、牙周指数、复发率。结果:两组填充效果比较,差异无统计学意义(P>0.05);观察组治疗总有效率(96.69%)高于对照组(89.40%)(P<0.05)。治疗前,两组视觉模拟评分法(visual analogue scale,VAS)评分比较,差异无统计学意义(P>0.05);治疗后,两组VAS评分均下降,观察组低于对照组(P<0.05)。治疗前,两组牙龈指数、菌斑指数、出血指数、牙周袋深度比较,差异均无统计学意义(P>0.05);治疗后,两组各项指数均降低,观察组均低于对照组(P<0.05)。对照组复发率(7.62%)高于观察组(1.80%)(P<0.05)。结论:iRoot SP冷侧压法在恒牙根尖周炎根管填充中效果显著,可降低术后疼痛及患牙松动程度,改善牙周指标,降低复发率,预后较佳。