<?xml version="1.0" encoding="utf-8"?>
<rss version="2.0" xmlns:atom="http://www.w3.org/2005/Atom" xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005">
<channel>
<title cf:type="text"><![CDATA[ -->Volume 41,Issue 2,2026 Table of Contents]]></title>
<item>
<title><![CDATA[Preparation and Application of Fractionated Small Molecular Lignin Potassium Fertilizer <i>via</i> KOH Gradient Dissolution]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602001&flag=1]]></link>
<description><![CDATA[Lignin was extracted from black liquor through acid precipitation， and a KOH gradient dissolution was employed to simultaneously achieve lignin fractionation and potassiumization， resulting in the synthesis of small molecular lignin potassium fertilizer (LMWL-K) with a high content of hydrophilic groups， which was subsequently applied in the cultivation of potassium-demanding butterhead lettuce seedlings. The results demonstrated that the small molecular lignin (LMWL) exhibited high contents of phenolic hydroxyl (2.98 mmol/g) and carboxyl groups (2.30 mmol/g). Consequently， LMWL-K achieved a potassium content of 15.9%， significantly higher than that of the full-spectrum lignin potassium fertilizer (10.3%). Hydroponic experiments on butterhead lettuce seedlings demonstrated that the optimal treatment efficacy was observed at an LMWL-K dosage of 150 mg/L. Compared with the control group without addition of potassium fertilizer application， LMWL-K significantly enhanced biomass accumulation， increasing the contents of chlorophyll a， chlorophyll b， soluble protein， and soluble sugar by 22.3%， 48.9%， 231%， and 40.5%， respectively. In addition to LMWL-K serving as a potassium source， the LMWL component in LMWL-K was found to stimulate root tip cell division， promote root development， and enhance nutrient uptake， thereby increasing seedling biomass. Its growth-promoting effects surpassed those of potassium humate and inorganic potassium fertilizers at equivalent potassium concentrations. Furthermore， LMWL-K was shown to regulate osmotic metabolism and activate the antioxidant enzyme system， thereby significantly enhancing the salt tolerance of the butterhead lettuce seedlings.]]></description>
<pubDate>2026/6/18 21:51:19</pubDate>
<category><![CDATA[Separation and Utilization of Biomass Raw Material Components]]></category>
<author><![CDATA[YANG Ranran,LI Wenhui,LI Baotao,LIU Yile,SUI Wenjie,LI Dongmin,WANG Ning,SI Chuanling,WANG Guanhua]]></author>
</item>
<item>
<title><![CDATA[Research Progress on Preparation and Application of Lignin-based Soil Conditioner]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602002&flag=1]]></link>
<description><![CDATA[This paper summarized the sources and characteristics of lignin， as well as methods for its sulfation， amination， and oxidation modifications. The preparation methods for lignin-based soil conditioners were introduced， and their roles and effects in soil improvement and remediation through mechanisms such as chemical precipitation， ion exchange， adsorption， humic acid conversion， and controlled release were elaborated. Finally， it reviewed the application of lignin as a soil conditioner in the remediation of acidic， saline-alkali， and heavy metal-contaminated soils， and looked forward to the challenges and research emphasis for its future development.]]></description>
<pubDate>2026/6/18 21:51:20</pubDate>
<category><![CDATA[Separation and Utilization of Biomass Raw Material Components]]></category>
<author><![CDATA[CHEN Jun,LIN Mingkai,WANG Chunhua,LIN Changmei,LIU Minghua]]></author>
</item>
<item>
<title><![CDATA[Study on the Preparation of Cellulose Nanofibers via Acidic Eutectic Solvent Pretreatment]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602003&flag=1]]></link>
<description><![CDATA[Deep eutectic solvents （DES） were prepared by combining various organic acids （citric acid， malic acid， and lactic acid） with 2，3-epoxypropyl trimethyl ammonium chloride （molar ratio of 1∶2）. These DES were used to pretreat hardwood chemical pulp to prepare cellulose nanofibers （CNF） with a high-pressure homogenization process. The effects of pretreatment by different DES on the properties of CNF were investigated. The results indicated that the CNF produced using the DES of lactic acid/2，3-epoxypropyl trimethylammonium chloride with homogenizing for 15 times under a pressure of 100 MPa exhibited the best performance， with an average diameter reduced to 12.95 nm， a Zeta potential of -26.21 mV， and no phase separation after 9 months of storage. The analysis of the mechanism revealed that DES selectively broke down the amorphous regions of cellulose fibers after swelling， was conductive to subsequent high-pressure homogenization treatment to produce CNF with a high specific surface area and excellent properties.]]></description>
<pubDate>2026/6/18 21:51:22</pubDate>
<category><![CDATA[Separation and Utilization of Biomass Raw Material Components]]></category>
<author><![CDATA[WAN Xiaoxuan,LIU Xinyue,JIA Ruiping,WANG Ziquan,LI Ke,PANG Yanjun,XU Feng,ZHANG Xueming]]></author>
</item>
<item>
<title><![CDATA[Study on Preparation of Lignin-based Porous Carbon and Its Adsorption Properties for Imidacloprid Insecticides]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602004&flag=1]]></link>
<description><![CDATA[In this study， kraft lignin （KP） was used as raw material and subjected to hierarchical pretreatment with hydrochloric acid， followed by synergistic activation and nitrogen doping modification using magnesium carbonate （MBC） and melamine to produce lignin-based porous carbon. The adsorption performance of lignin-based porous carbon towards the neonicotinoid insecticide imidacloprid (IMI) in an aqueous solution was preliminarily investigated. The results indicated that staged hydrochloric acid pretreatment at pH value of 9 effectively optimized the pore structure and surface chemical activity of the lignin-based porous carbon (KP9@MBC@N). The specific surface area， total pore volume， and average pore diameter of the resulting KP9@MBC@N were 1 693.8 m<sup>2</sup>/g， 0.56 cm<sup>3</sup>/g， and 2.52 nm， respectively. Under the conditions of IMI solution initial concentration of 200 mg/L， adsorbent dosage of 10 mg， adsorption temperature of 35 ℃ and adsorption time of 120 min， the maximum adsorption capacity of KP9@MBC@N towards IMI could reach 294.4 mg/g. It was hypothesized that the adsorption mechanism towards IMI mainly involved pore filling and some mild chemical reactions.]]></description>
<pubDate>2026/6/18 21:51:23</pubDate>
<category><![CDATA[Separation and Utilization of Biomass Raw Material Components]]></category>
<author><![CDATA[HUI Xinyuan,ZHANG Cheng,ZHAO Xiufu,JIANG Bo,WU Wenjuan,JIN Yongcan]]></author>
</item>
<item>
<title><![CDATA[Study on the Preparation and Properties of Lignocellulose-based Composite Films]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602005&flag=1]]></link>
<description><![CDATA[This study mimicked the structure of natural plant cell walls， using cellulose nanofibers （CNF）， konjac glucomannan （KGM）， and sulfonated lignin （LA） as raw materials， a physically cross-linked network was constructed via acetic acid vapor protonation， and by the formation of a chemically cross-linked network using epichlorohydrin and ammonia vapor， resulting in the preparation of two types of cross-linked lignocellulose-based composite films. The study systematically investigated the effects of cross-linking methods and component ratios on the physicochemical properties of the composite films， revealing the synergistic mechanisms of the three components within the composite films. The results indicated that， similar to natural plant cell walls， CNF within the composite film formed a rigid three-dimensional framework through intermolecular hydrogen bonding， KGM enhanced the synergistic effect of hydrogen bonding to improve film toughness， and LA could toughen the film and optimize its pore structure. Compared to the control without LA， when the LA mass fraction was 1%， the fracture strain of the chemically cross-linked composite film increased from 5.01% to 10.65%， and the 1 day water swelling rate was as low as (175.78±11.06)%， which was only 4.12% of that of the physically cross-linked composite film. At a LA mass fraction of 15%， the chemical cross-linked composite film achieved peak blocking rates for medium-wave ultraviolet （UVB） and long-wave ultraviolet （UVA） radiation， at 98.5% and 87.8%， respectively. These results demonstrated that LA not only optimized the pore structure of the composite film and significantly enhanced its mechanical properties but also conferred excellent water resistance and UV shielding performance.]]></description>
<pubDate>2026/6/18 21:51:24</pubDate>
<category><![CDATA[Separation and Utilization of Biomass Raw Material Components]]></category>
<author><![CDATA[WU Bin,LI Bin,LIANG Tingting,LI Yun,ZHANG Lili,WANG Zhiguo]]></author>
</item>
<item>
<title><![CDATA[Preparation and Electrochemical Performance of Fe-catalyzed Biomass-based Carbon Aerogels]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602006&flag=1]]></link>
<description><![CDATA[Hierarchical porous Fe-catalyzed biomass-based carbon aerogels were fabricated by using lignin and cellulose nanofibers （CNF） as carbon sources with ferric nitrate as catalyst and template agent. Their electrochemical performances as supercapacitor electrodes were comparatively investigated. The results indicated that as the amount of ferric nitrate increased， the graphitization degree of the prepared Fe-catalyzed biomass-based carbon aerogel enhanced， while the specific surface area first decreased and then increased， and the total pore volume and average pore diameter both increased. The specific capacitance， reversible charge-discharge performance， and rate performance of the prepared electrodes all show an upward trend. When the mass ratio of ferric nitrate to lignin/CNF was 2∶1 and 3∶1， the specific surface area， total pore volume， and average pore diameter of the prepared LC@FeA-2 and LC@FeA-3 were 421.4， 467.3 m<sup>2</sup>/g，0.300， 0.373 cm<sup>3</sup>/g， and 2.849， 3.195 nm， respectively， and they exhibited optimal electrochemical performance， with specific capacitance of 219.0 and 221.8 F/g， respectively， and excellent capacitance rentention rate of 73.3% and 74.8%， respectively. After 4 000 cycles of charge-discharge tests， the specific capacitance retention rate of LC@FeA-2 was 72.0%， demonstrating a good cycle stability.]]></description>
<pubDate>2026/6/18 21:51:25</pubDate>
<category><![CDATA[Biomass Substrate Materials and Utilization]]></category>
<author><![CDATA[LIN Yan,JIAO Jian,DENG Yongjun,FANG Guigan]]></author>
</item>
<item>
<title><![CDATA[Cd<sup>2+</sup> Adsorption Properties of Fe-modified Biochar and Its Environmental Sustainability Evaluation]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602007&flag=1]]></link>
<description><![CDATA[In this study， poplar wood was used as the raw material to prepare biochar （BC） under various pyrolysis temperatures and times. Iron was introduced via an Fe impregnation-calcination method to modify the biochar. The adsorption behavior of Fe-modified biochar towards Cd²⁺ was systematically investigated. Additionally， a life cycle assessment （LCA） was conducted to analyze the environmental impacts of different process routes in terms of global warming potential， acidification potential， and ecological toxicity. The results showed that increasing pyrolysis temperature significantly enhanced specific surface area and adsorption capacity of Fe-modified biochar， while reducing the number of oxygen-containing functional groups on its surface. The theoretical saturated adsorption capacity of Fe-BC， prepared at 600 ℃， was 25.432 mg/g. LCA analysis revealed that the route of 400 ℃ and 30 min imposed the lowest environmental burden， removing 1 mg Cd<sup>2+</sup> resulted in a global warming potential of only 0.10 kg CO<sub>2</sub> eq， whereas the high-temperature pyrolysis processes enhanced the adsorption performance at the cost of higher environmental impacts.]]></description>
<pubDate>2026/6/18 21:51:26</pubDate>
<category><![CDATA[Biomass Substrate Materials and Utilization]]></category>
<author><![CDATA[WEI Yuxin,LIU Kuankuan,CHEN Jiayang,WANG Junqi]]></author>
</item>
<item>
<title><![CDATA[Preparation of Hydrophobic Sugarcane Pith Microparticles and Study on the Oil-Water Separation Performance of Their Polyurethane Composite Foam Materials]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602008&flag=1]]></link>
<description><![CDATA[Using sugarcane bagasse screen residue （sugarcane pith） as raw material， hydrophobic sugarcane pith microparticles （HMSP） were prepared through ethanol pretreatment， mechanical grinding， and dry modification with alkylene ketone dimer （AKD）. HMSP were then used to prepare HMSP/polyurethane composite foam materials. The results showed that ethanol pretreatment and mechanical grinding could increase the content of alcoholic and phenolic hydroxyl groups in HMSP； Furthermore， these hydroxyl groups reacted with AKD could significantly enhance the hydrophobicity of HMSP. After modification with AKD， the prepared HMSP<sub>75</sub> derived from sugarcane pith microparticles with a particle size of ≤75 μm exhibited the highest water contact angle of 152.12°. When HMSP<sub>75</sub> was incorporated into the polyurethane system， it markedly improved the pore structure and mechanical properties of the prepared HMSP/polyurethane composite foam materials. The HMSP-10-PUF prepared with a 10% HMSP<sub>75</sub> mass fraction exhibited the highest water contact angle， reaching 135.02°. At strain of 70%， the compressive stress of HMSP-10-PUF was approximately 0.35 MPa. It exhibited excellent oil-water separation performance in both “floating oil-water” and “sinking oil-water” mixed systems， with an oil absorption capacity of approximately 25 g/g for dichloromethane as simulated oil phase. Moreover， its oil absorption capacity remained at over 80% of the initial value even after 10 times of adsorption-desorption cycles.]]></description>
<pubDate>2026/6/18 21:51:26</pubDate>
<category><![CDATA[Biomass Substrate Materials and Utilization]]></category>
<author><![CDATA[GAO Longxue,PING Qingwei,SHENG Xueru,ZHANG Jian,LI Na]]></author>
</item>
<item>
<title><![CDATA[Study on Preparation and Performances of Sodium Lignosulfonate/Polyvinyl Alcohol Superabsorbent Resin with Semi-Interpenetrating Network]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602009&flag=1]]></link>
<description><![CDATA[Incorporating sodium lignosulfonate (LS) as a rigid bio-based framework， linear polyvinyl alcohol (PVA) and poly(acrylic acid-acrylamide) were introduced to form a semi-interpenetrating system within the covalent cross-linked network， a LS-grafted poly(acrylic acid-acrylamide)/PVA superabsorbent resin (LS-g-P(AA-co-AM)/PVA) with semi-interpenetrating network was prepared， and a composite architecture comprising a “sodium lignosulfonate-based bio-skeleton + semi-interpenetrating network” was constructed， which could overcome the limitations of traditional single cross-linked networks. The results showed that the multiples of water (liquid) absorbing of LS-g-P(AA-co-AM)/PVA in distilled water and NaCl solution with mass fraction of 0.9% were 1 492.1 and 183.6 g/g， respectively. Due to the triple synergistic effects of the dual-charge system formed by the sulfonate groups and carboxylate groups， the reversible hydrogen-bond network of PVA， and the ion-dipole coordination layer between the hydroxyl groups of PVA and Na⁺， LS-g-P(AA-co-AM)/PVA exhibited excellent salt-tolerance， with multiple of liquid absorbing of 123.6 g/g even in NaCl solution with mass fraction of 3%. In addition， LS-g-P(AA-co-AM)/PVA exhibited outstanding water retention， acid and alkali resistance， and recyclability. Its water retention rate remained as high as 61.0% after being left at 60 ℃ for 12 h， and the retention rate of multiples of water absorbing was 49.3% after 5 cycles. These showed that LS-g-P(AA-co-AM)/PVA had significant potential for applications in areas such as the reclamation of saline-alkali land and horticultural cultivation.]]></description>
<pubDate>2026/6/18 21:51:27</pubDate>
<category><![CDATA[Biomass Substrate Materials and Utilization]]></category>
<author><![CDATA[CHEN Huijun,CHEN Ruoyi,LIU Yifan,LIU Minghua]]></author>
</item>
<item>
<title><![CDATA[Research Progress on Preparation and Application of Chitosan Based Nanofibers by Electrospinning Technique]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602010&flag=1]]></link>
<description><![CDATA[This paper systematically reviewed the research progress on the preparation of chitosan-based nanofibers via electrospinning， focusing on the regulatory effects of chitosan characteristics， co-spinning polymers， solvent systems， applied voltage， and ambient temperature and humidity on the morphology， microstructure， mechanical properties， and functional performances of chitosan-based nanofibers. Meanwhile， the application advances of chitosan-based nanofibers in biomedicine， environmental treatment， and other fields were summarized， and their potential values and development trends were discussed， aiming to provide systematic references and theoretical supports for the design optimization， functional regulation， and industrial development of such nanofibers.]]></description>
<pubDate>2026/6/18 21:51:29</pubDate>
<category><![CDATA[Biomass Substrate Materials and Utilization]]></category>
<author><![CDATA[ZHANG Lu,LI Jindi,JI Mingyu,WANG Ke,DONG Fengxia,ZHANG Jingwen,HUANG Ju,CAO Shan]]></author>
</item>
<item>
<title><![CDATA[Study on the Selective Adsorption of Lignin from Corn Stover Hydrolysate Using Protein Complex and Its Mechanism]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602011&flag=1]]></link>
<description><![CDATA[In this study， a protein complex composed of egg white protein and soy protein isolate was used to adsorb the lignin in the hydrolysate obtained by the hydrothermal pretreatment of corn stover， and the effectiveness and mechanism of the protein complex in selective adsorption of lignin from the hydrolysate were investigated. The results showed that at reaction temperature of 95 ℃， pH value of 5， and a protein complex dosage of 1.5 g/L， the removal rate of macromolecular lignin reached 89.6%， the removal rate of small molecular lignin was 26.1%， and the total sugar loss was only 0.98%， indicating that the protein complex could preferentially remove macromolecular lignin while exerting minimal influence on sugars. Mechanism analysis revealed that the binding between the proteins and lignin was primarily driven by hydrogen bonding and hydrophobic interactions. As the reaction temperature increased， the degree of protein cross-linking increased， leading to the formation of larger aggregates with enhanced hydrophobicity， which further improved its lignin removal ability.]]></description>
<pubDate>2026/6/18 21:51:29</pubDate>
<category><![CDATA[Biomass Substrate Materials and Utilization]]></category>
<author><![CDATA[WANG Yifan,KONG Lingyi,LI Xiao,YU Menghui,WANG Gaosheng]]></author>
</item>
<item>
<title><![CDATA[Analysis of Volatile Components and Identification of Key Aroma Compounds in Essential Oils of Pomelo Peels from Different Varieties]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602012&flag=1]]></link>
<description><![CDATA[In this study， essential oils of pomelo peels suitable for the production of fragranced specialty paper were extracted by steam distillation from six representative pomelo varieties， and a systematic analysis was conducted on their volatile components， key aroma compounds， and pyrolysis behavior. The results showed that 52 volatile components of the essential oils of pomelo peels were identified， with monoterpenes being the most abundant (22.5%~92.8%). The sensory evaluation of essential oil processed cigarettes indicated that fruity and sweet aromas were most prominent of essential oil of Liangping pomelo peel. The relative odor activity value (ROAV) analysis identified that nootkatone (ROAV=100) and D-limonene (ROAV=2.175) were the key aroma compounds of essential oil of Liangping pomelo peel， whereas the essential oils of Fengdu red pomelo peel and Long’an pomelo peel showed poor aroma quality due to high levels of oxidized limonene (7.4%~11.9%) and the absence of nootkatone. In addition， the pyrolysis of essential oil of Liangping pomelo peel was more complete (residue rate of 11.7%) and released characteristic flavor compounds derived from nootkatone， while the pyrolysis residue rate of essential oil of Fengdu red pomelo peel reached 65.7%. The suitable ratio of D-limonene to nootkatone (26.10) was key to the superior flavor quality of essential oil of Liangping pomelo peel.]]></description>
<pubDate>2026/6/18 21:51:31</pubDate>
<category><![CDATA[Biomass Substrate Materials and Utilization]]></category>
<author><![CDATA[TIAN Yunheng,HUO Zhaomei,WANG Fang,LIU Zhenyu,WANG Ying,LI Xiaobin,SONG Shixi,LI Fulin,JIA Fengfeng,WANG Yonghong]]></author>
</item>
<item>
<title><![CDATA[Study on Preparation and Properties of Flexible X-ray Shielding Paper Based on Multi-scale Aramid Network of PMIA/AF/ANF Loaded with CsPbBr<sub>3</sub>]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602013&flag=1]]></link>
<description><![CDATA[In this study， a macroscopic framework was constructed using long para-aramid （PMIA） fibers， while aramid precipitated fibers （AF） were employed to bridge and toughen the PMIA fibers at the micrometer scale. Furthermore， aramid nanofibers （ANF） were used to form a nano-bonding/coating phase. Using a wet-forming process， the PMIA/AF/ANF multi-scale aramid networks were combined with the all-inorganic perovskite CsPbBr₃ to create X-ray shielding paper， achieving uniform dispersion and stable loading of CsPbBr₃ particles within the paper. The effects of CsPbBr₃ addition amount （27%~65%） on the paper’s morphology， mechanical properties， and X-ray shielding performance were systematically investigated. The results showed that adding an appropriate amount of CsPbBr₃ significantly enhanced the attenuation capacity of X-ray shielding paper while maintaining the continuity of the aramid paper. When the CsPbBr₃ addition amount was 53%， the prepared CPAA-3 achieved X-ray attenuation efficiency of 58%~72% at tube voltage of 20~70 kV， with a tensile strength of 57.6 MPa and a density of only 1.08 g/cm³， which was far lower than that of traditional lead-based materials. The prepared X-ray shielding paper in this study combined the advantages of light weight， flexibility， and high-efficiency shielding. Its enhanced shielding performance was primarily attributed to the complementary K-edge absorption effects of Cs and Pb， as well as the enhanced multiple scattering of X-rays by the porous structure of the aramid paper.]]></description>
<pubDate>2026/6/18 21:51:31</pubDate>
<category><![CDATA[Process and Technology of Pulping and Papermaking]]></category>
<author><![CDATA[XING Jialong,SONG Shunxi,ZHANG Jingru]]></author>
</item>
<item>
<title><![CDATA[Study on the <i>In</i>-<i>situ</i> Bacterial Cellulose Synthesis Modification of Sludge Based on Distiller’s Grains Enzymatic Hydrolysate and Its Application as a Paper Filler]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602014&flag=1]]></link>
<description><![CDATA[In this study， enzymatic hydrolysate of distiller’s grains was used to drive kombucha bacteria to <i>in-situ</i> construct bacterial cellulose (BC) networks on the surface of river silt， to prepare a green and low-cost papermaking fillers， and investigating its application effect in paper. The results showed that the composite filler (EW-BC/SP) prepared with the distiller’s grains enzymatic hydrolysate medium achieved a BC loading of 109.1 mg/g， exhibiting an excellent BC loading capacity with superior <i>in</i>-<i>situ</i> modification performance compared with the traditional medium group (68.6 mg/g). When the filler dosage was fixed at 40%， the retention rate of EW-BC/SP in paper reached as high as 88.2%， which was significantly higher than that of SP group (54.7%). The tensile index of the paper added EW-BC/SP reached 31.2 N·m/g， which was 30.6% higher than that of SP group， and the burst index was 1.81 kPa·m²/g， showing basically no difference from SP group， and demonstrated the remarkable enhancement effect of the BC network.]]></description>
<pubDate>2026/6/18 21:51:32</pubDate>
<category><![CDATA[Process and Technology of Pulping and Papermaking]]></category>
<author><![CDATA[WU Zhiyi,WEI Lingjun,ZHOU Jiawei,YAN Xinchi,SUN Hao,WANG Changkun,DU Tiantian]]></author>
</item>
<item>
<title><![CDATA[Study on the Effects of Bone Glue-Alum Solution Ratios on the Surface Morphology， Physical Structure, and the Expressiveness of Ink Marks of Xuan Paper]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602015&flag=1]]></link>
<description><![CDATA[In this study， the bone glue-alum solution with different ratios used as sizing agents， and the traditional drag-dye sizing technology was employed to produce Xuan papers sized bone glue-alum， and the surface morphology， pore structure， contact angle， and other characteristics were systematically analyzed to explore the effects of the bone glue-alum solution ratios on the morphology and color of ink marks during calligraphy creation. The results showed that bone glue-alum solution affected the surface morphology and physical structure of Xuan paper by filling its porous structure， thereby influencing the expressiveness of ink marks in calligraphy creation. Under different ratios， there were significant differences in the hydrophobicity and the expressiveness of ink marks of Xuan paper sized with bone glue-alum. When the mass fraction of alum was 1.0% and the mass fraction of bone glue was 1.0% or 1.5%， the ink sensitivity of Xuan paper sized with bone glue-alum was better. When the mass fraction of bone glue was 2.0%， and the mass fraction of alum was 1.0% or 1.5%， the Xuan paper sized with bone glue-alum was more suitable for thick ink. For the Xuna paper sized with alum and no glue， the positively charged alum adsorbed ink particles faster， leading to uneven ink diffusion. The experimental results of ink marks were basically consistent with the writing experience， indicating that the factors affecting the writing experience could be mapped to measurable physical structure， providing a certain reference for calligraphers to choose and for manufacturers to process Xuna paper sized with bone glue-alum.]]></description>
<pubDate>2026/6/18 21:51:34</pubDate>
<category><![CDATA[Process and Technology of Pulping and Papermaking]]></category>
<author><![CDATA[ZHU Yuewei,PENG Anting,RUI Yangmenglin,WANG Chunxiu,JIAO Yuhao,HAO Xinying,DING Yanwei,ZHU Zhenghai,CHEN Biao]]></author>
</item>
<item>
<title><![CDATA[Synthesis of Calcium Carboaluminate and Its Mechanism of Silicon Removal from Green Liquor at High Temperature]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602016&flag=1]]></link>
<description><![CDATA[In this study， calcium aluminate carbonate （CHAC）， a highly efficient desilication agent was synthesized， which was suitable for high-temperature green liquor systems. Its synthesis process and desiliconization conditions were systematically optimized. The results showed that under conditions of a synthesis time of 75 min， a synthesis temperature of 45 °C， and a molar ratio of CaO， NaAlO₂， and Na₂CO₃ of 2∶1∶1， the prepared CHAC exhibited a rich layered structure， high crystalline water content （14.1%）， and a large specific surface area （8.21 m<sup>2</sup>/g）， with silicon removal performance significantly superior to that of other desilication agents. When the molar ratio of CHAC to silicon was 1∶0.8 and the silicon removal time was 1 h， the silicon removal rate could reach 80.1%， and the settling time could be controlled within 10 min. The Ca²⁺ and Al³⁺ in CHAC form Ca—O—Al complexes that reacted with SiO₃²⁻ in the green liquor to generate insoluble calcium silicoaluminate precipitates （primarily composed of 2CaO·Al₂O₃·2SiO₂）， thereby achieving efficient silicon removal.]]></description>
<pubDate>2026/6/18 21:51:35</pubDate>
<category><![CDATA[Process and Technology of Pulping and Papermaking]]></category>
<author><![CDATA[LI Xin,LAN Jinxin,CAI Yuanyuan,MA Xiaojuan,CAO Shilin]]></author>
</item>
<item>
<title><![CDATA[Research Progress of Transparent Paper-based Materials for Windows]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602017&flag=1]]></link>
<description><![CDATA[In this paper， the diverse preparation routes and modification methods of transparent paper-based materials for windows were systematically reviewed， the performance characteristics and requirements of these materials in various application fields were summarized. The bottlenecks in current technology was analyzed， and an outlook on the future development directions of high-performance， multi-functional transparent paper-based materials for window was provided. It aimed to offer a reference for the further promotion and application of these materials.]]></description>
<pubDate>2026/6/18 21:51:36</pubDate>
<category><![CDATA[Process and Technology of Pulping and Papermaking]]></category>
<author><![CDATA[GUO Gang,LI Junbing,WANG Xiwen]]></author>
</item>
<item>
<title><![CDATA[Technological Advances in the Production of Dissolving Pulp from Cotton Linters and Waste Cotton Textiles]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602018&flag=1]]></link>
<description><![CDATA[This paper reviewed the technological advances of preparing dissolving pulp from cotton fibers， and discussed the differences in the characteristics of two types of raw materials with cotton linter and waste cotton textiles， along with their effects on the dissolving pulp pulping process. From the perspective of the key quality indicators system and range of dissolving pulp， a comparative discussion was made on the traditional and modern pulping methods for cotton linter， as well as the decolorization processes for waste cotton textiles including oxidative decolorization， reductive decolorization， and enzymatic decolorization. The diversified development of dissolving pulp and regenerated fiber preparation technology was summarized， with the aim of providing a reference for the high-value utilization of waste cotton textiles.]]></description>
<pubDate>2026/6/18 21:51:38</pubDate>
<category><![CDATA[Process and Technology of Pulping and Papermaking]]></category>
<author><![CDATA[WANG Ziwei,ZHONG Huiyan,WANG Xiyue,MA Shengjuan,ZHANG Gangqiang]]></author>
</item>
<item>
<title><![CDATA[Research Progress on the Application of Biological Enzymes in the Optimization of Pulping and Papermaking Process]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602019&flag=1]]></link>
<description><![CDATA[Biological enzyme is a natural and efficient catalyst， which provides important support for the green transformation of pulp and paper industry. This paper introduced the commonly used biological enzymes in pulping and papermaking process， including laccase， lipase， amylase， cellulase and hemicellulase， and analysed their mechanism of action， respectively， focusing on the application effect of these enzymes in the key steps of pulping and papermaking process （beating， bleaching， deinking of waste paper， wastewater treatment， etc.）. The pulp and paper industry could move toward a more environmentally friendly and sustainable future by the methods of combining different biological enzymes， using intelligent technologies to control enzymatic processes， and better integrating enzyme technology into existing pulping and papermaking process.]]></description>
<pubDate>2026/6/18 21:51:38</pubDate>
<category><![CDATA[Process and Technology of Pulping and Papermaking]]></category>
<author><![CDATA[ZHANG Zhaochi,GUO Mengxia]]></author>
</item>
<item>
<title><![CDATA[Establishment and Application of Theoretical Model of In-plane Compressive Plateau Stress in Corrugated-Honeycomb Composite Cardboard]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602020&flag=1]]></link>
<description><![CDATA[To address the issue of weak bearing capacity of traditional honeycomb cardboard under in-plane compression， a three-layer composite cardboard with a "corrugated-honeycomb-corrugated" structure was innovatively designed and prepared in this study. In-plane quasi-static compression tests were conducted to explore the deformation mechanism of each layer of the composite cardboard. Typical folding units were selected， and based on the corner unit energy dissipation theory， the energy dissipation mechanism of each layer structure was revealed. A theoretical model for the plateau stress of the composite cardboard was established. Comparative tests were carried out on three types of corrugated-honeycomb composite cardboards with different structural parameters. The results showed that the relative error between the theoretical predicted values and the experimental test values ranged from 3.36% to 8.49%. On this basis， the effects of material and structural parameters on the plateau stress was systematically analyzed by using the established theoretical model， and the action mechanism of each parameter was clarified.]]></description>
<pubDate>2026/6/18 21:51:39</pubDate>
<category><![CDATA[Process and Technology of Pulping and Papermaking]]></category>
<author><![CDATA[CHANG Bingbing,ZHANG Min,CHEN Qingguo,QIAN Jing]]></author>
</item>
<item>
<title><![CDATA[Research on Multi-Objective Optimization Approach for Distributed Flexible Flow Shop Scheduling with Integration of Third-Party Warehousing]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602021&flag=1]]></link>
<description><![CDATA[A mixed-integer programming model integrating production scheduling， warehouse allocation， and vehicle routing was developed for the collaborative optimization problem of distributed flexible flow shops and third-party warehousing logistics in the paper industry， aimed to minimize total operational cost， total carbon emissions， and order delivery tardiness simultaneously. To solve these problems， an adaptive dynamic archive-based multi-objective optimization with sub-population synergy was proposed， which was termed ADAMS. By establishing a heterogeneous collaborative framework and a dynamic population decomposition mechanism， the algorithm incorporated differentiated evolutionary operators and an elite pool strategy， effectively balancing convergence speed and solution diversity under high-dimensional and strongly constrained conditions. The simulation experimental results on 30 real-world industrial instances showed that the hypervolume metric of ADAMS algorithm improved by an average of 12.5% compared with benchmark algorithms. By integrating a “distance superiority” warehouse selection mechanism with a capacity-constrained greedy routing strategy， the proposed algorithm achieved coordinated optimization of total cost， carbon emissions， and delivery tardiness in order-scale scenarios ranging from 100 to 390 orders. The results further demonstrated the superiority of ADAMS algorithm in terms of convergence performance and solution diversity for high-dimensional strongly constrained collaborative scheduling of production and logistics.]]></description>
<pubDate>2026/6/18 21:51:40</pubDate>
<category><![CDATA[Papermaking Equipment and Control Automation]]></category>
<author><![CDATA[WANG Tianlei,MO Jinpeng,ZENG Zhiqiang]]></author>
</item>
<item>
<title><![CDATA[AMESim Simulation Analysis and Optimization Design of the Hydraulic System for the Primary Arm of Winder]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202602022&flag=1]]></link>
<description><![CDATA[During the process of lowering the paper roll onto the guide rail in a wide-web high-speed paper winding machine， the hydraulic cylinder of the primary arm was prone to uncontrolled movement and increased inertial impact， which could lead to collisions between the paper roll and the guide rail as well as hydraulic shock.In this study， a hydraulic system model established via AMESim software was adopted for simulation analysis， which identified that the substantial increase in load mass （from approximately 5 000 kg to 50 000 kg） is the root cause leading to rail collision of the paper roll and hydraulic shock generation. It was revealed that the core problem lies in the insufficient dynamic response of the conventional hydraulic control system under high-load operating conditions. Accordingly， an optimized scheme was proposed by adding a buffer branch combined with stepwise pressure relief control. Simulation results demonstrated that the proposed optimization strategy could significantly reduce the instantaneous collision velocity between the paper roll and the guide rail from -14.0 mm/s to -6.7 mm/s， with a reduction rate of 52%. Furthermore， field applications on actual equipment had verified the effectiveness of the optimized scheme. The modified system basically eliminated impact phenomena， and the quality of paper rolls met industrial production requirements.]]></description>
<pubDate>2026/6/18 21:51:41</pubDate>
<category><![CDATA[Papermaking Equipment and Control Automation]]></category>
<author><![CDATA[LIN Haichen,ZHANG Enci,CAI Chilan]]></author>
</item>
</channel>
</rss>