Table of Content

11 February 2026, Volume 42 Issue 1

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Research and Application of MTS-MCF-Based Prediction Model for Gold and Silver in Anode Refining

JIANG Wenbing, SUN Jia, XU Yue, LIU Cunhu

2026, 42(1):  1.  doi:10.3969/j.issn.1009-0479.2026.01.001

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In the anode refining process, accurate prediction of precious metal production is critical for resource recovery and production optimization. To address the issues of multi-source coupling, noise interference and insufficient frequency-domain characteristics in process data, this paper proposes a multi-channel fusion prediction model based on time series correlation and frequency-domain enhancement, termed MTS-MCF. The Pearson correlation coefficient method was used to screen input variables, and a time series correlation network (CorNet) was constructed to achieve dynamic label propagation. The coupling weights of parameters were quantified using a frequency-domain enhanced channel attention mechanism (FECAM), and the network response was optimized with the ELU activation function. Experimental results show that compared with the benchmark models, the proposed model reduces MAE for gold and silver by more than 5.7%, reduces MSE by more than 6.3%, and increases 
 by more than 6.3%, outperforming mainstream models such as MTS-mixers and providing effective technical support for production control.


Efficient Synchronous Leaching of Ga, Ge and In from Zinc Smelting Electric Furnace Slag

ＹＡＮＧＺｈｉｈｏｎｇ１, ＬＩＹｏｎｇｊｉａ１, ＹＥＦｕ２, ＺＨＡＮＧＪｉｎｌｉａｎｇ１、２

2026, 42(1):  10.  doi:10.3969/j.issn.1009-0479.2026.01.002

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Gallium (Ga), germanium (Ge), and indium (In) are rare dispersed strategic metal elements that are difficult to extract due to their lack of independent mineral deposits and low natural abundance. However, because of their affinities for iron and sulfur, Ga, Ge, and In are commonly associated with sphalerite and other sulfide minerals. During pyrometallurgical or hydrometallurgical zinc processing, trace amounts of these elements become enriched and remain in the slag. In this study, zinc electric furnace slag with relatively high contents of Ga, Ge, and In was used as the raw material. The leaching behavior of Ga, Ge, and In was investigated under various leaching systems (sulfuric acid and hydrochloric acid systems) by examining the effects of temperature, acid concentration, oxidant type, and oxidant dosage. The results showed that Ga, Ge, and In achieved leaching rates of 97.51%, 94.58%, and 98.73%, respectively, in the optimized two-stage hydrochloric acid oxidation leaching process. Furthermore, XRD and SEM analyses revealed that the high lead content in the raw material led to the formation of insoluble lead sulfate in the sulfuric acid system, which encapsulated the particles and inhibited the leaching of Ga, Ge, and In. In contrast, in the hydrochloric acid system, lead chloride forms coordination complex reactions, which redissolve the precipitated lead chloride. This effect effectively eliminates the particle encapsulation barrier and realizes the efficient and synchronous leaching of Ga, Ge, and In, providing a feasible technical route for the extraction and utilization of scattered metals.der complexation, leading to the dissolution of lead species and effectively preventing encapsulation. As a result, efficient and simultaneous leaching of Ga, Ge, and In was achieved, providing a promising approach for the extraction of these strategic metals from zinc smelting residue


ＤｅｖｅｌｏｐｍｅｎｔＳｔａｔｕｓｏｆＧｒｅｅｎＭｉｎｅｓｉｎＣｈｉｎａＵｎｄｅｒｔｈｅ#br# ＣａｒｂｏｎＰｅａｋａｎｄＣａｒｂｏｎＮｅｕｔｒａｌｉｔｙＯｐｐｏｒｔｕｎｉｔｉ#br#

ＹＡＮＧＺｈｉｈｏｎｇ１, ＬＩＹｏｎｇｊｉａ１, ＹＥＦｕ２, ＺＨＡＮＧＪｉｎｌｉａｎｇ１、２

2026, 42(1):  17.  doi:10.3969/j.issn.1009-0479.2026.01.003

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Against the strategic backdrop of advancing both the "carbon peak and carbon neutrality" goals and ecological civilization construction, the mining industry as a high-energy-consumption and high-emission sector must undergo a low-carbon transformation that is crucial to achieving the dual carbon targets. This study systematically analyzes the current status and evolutionary context of green mine construction in China, exploring pathways for deep decarbonization of the mining industry. Through policy text analysis and typical case studies, it reviews the development of the green mine standard system and constructs a full-chain carbon footprint accounting model covering the "exploration-mining-processing-restoration" lifecycle using the Life Cycle Assessment (LCA) method. The research innovatively proposes a three-dimensional collaborative technical framework of "resources-energy-carbon sink", integrates new quality productivity elements such as intelligent sorting and digital twins, and designs an integrated transformation model comprising "green mining+clean energy substitution+carbon capture, utilization, and storage". TheResults show that: 1) China has initially established a multi-level green mine policy system, but regional economic development imbalances lead to significant differences in implementation outcomes, restricting the carbon peak process; 2) clean energy substitution (e.g., photovoltaic, green hydrogen) and solid waste recycling can reduce the mine carbon emission intensity by more than 30%, serving as core decarbonization pathways before carbon neutrality; 3) as a key support for deep decarbonization, CCUS technology currently faces bottlenecks of high costs and insufficient large-scale deployment, which need to be overcome through green hydrogen coupling and carbon market linkage mechanisms. Based on these findings, the study suggests improving national standards for carbon footprint accounting, establishing a fiscal-carbon market linkage mechanism for CCUS, and accelerating the deep integration of intelligent technologies with mining scenarios, thereby building a new green mine development paradigm driven by "policy guidance, technology impetus, and market regulation". The research results not only provide technical support and institutional guarantees for China's mining industry to achieve carbon peak and carbon neutrality, but also offer a Chinese solution for the global low-carbon transformation of the mining industry.


Analysis on Location Selection of Roof Roadway for Upward Miningin Large Mining Height Mine

LIU Cong, LONG Xiaobo, HAO Yanhong, KE Rui, LU Yifan

2026, 42(1):  29.  doi:10.3969/j.issn.1009-4979.2026.01.004

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This study takes the north-wing belt transportation roadway of No. 8 coal mine as the engineer-ing context. The key stratum theory is applied to determine the fracture spacing of overlying strata and theheights of the three zonesin upward mining. FLAC3D numerical simulation software is used to analyze themovement law of overlying strata at different mining heights. Orthogonal experiments are conducted to op-limize roadway location selection. The following conclusions are drawn: 1) Due to the influence of keylayers, the height of the fracture zone increases abruptly with the increase of mining height. Each abruptinerease indicates that a key stratum has fractured and formed a voussoir beam structure. 2) The plasticzone of the working face exhibits a saddle-shape distribution (high at both ends and low in the middle).As mining height increases, the difference between the plastic zone above the mining boundary and thatin the middle decreases. The advance stress concentration coefficient and lateral stress concentration coef-ficient increase linearly with mining height, and their peak positions move farther away. 3) The influencing factors, in descending order of weight, are normal distance, horizontal distance, and mining height.The optimal roadway location is at a mining height of 2 meters, with a normal distance of 140 meters fromthe mining face and a horizontal distance exceeding 20 meters from the mining site boundary. Anormaldistance of 60 meters and a horizontal distance of 20 ~ 40 meters define a stress concentration zone,which is unsuitable for roadway placement.

Design and Compilation of Township-Level Atlas: A CaseStudy of Mohan Town

RAN Lei, HOU Zhiqun, HUANG Kefeng, YANG Mingxing, ZHANG Weihong, YANG Chun

2026, 42(1):  38.  doi:10.3969/j.issn.1009-0479.2026.01.005

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To fill the gap in township level atlas and to extend surveying, mapping and geographic infor-mation services and applications to rural areas and towns, this study takes the Mohan Town Atlas as anexample. It presents the design process and technical characteristics of the atlas, using cartographic lan-guage to comprehensively show case Mohan's unique advantages in social, economic, cultural, locationalaspects. The atlas provides first-hand surveying and mapping data, solves the problem of missing townlevel atlases, and provides reference base maps for local development planning. This study explores andsummarizes the technical processes and improvement strategies for compiling township-level atlases, pro-viding a reference for the efficient and high-quality production of similar atlases.

Fault Feature Extraction of Planetary Gearbox Based on Fusion of VMD and Improved M-SVD

ＨＡＯＺｈｏｎｇｂｏ１, ＹＥＮｉｎｇ２, ＨＡＯＸｉｎｙｕ

2026, 42(1):  43.  doi:10.3969/j.issn.1009-0479.2026.01.006

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To address the difficulty in effectively separating fault components from noise components during the extraction of weak pitting fault features of planetary gearboxes, which leads to insufficient suppression of noise burrs and incomplete preservation of fault feature information, a feature extraction method combining Variational Mode Decomposition (VMD) and improved Multiscale Singular Value Decomposition (M-SVD) is proposed. Firstly, an objective function based on minimum envelope entropy is constructed, and a VMD signal decomposition method incorporating Sparrow Search Algorithm (SSA) is proposed to achieve adaptive decomposition of the original signal. Secondly, the square envelope spectrum kurtosis is selected as an indicator to screen and reconstruct the VMD decomposition components, thereby removing most of the noise burrs from the original signal. Then, considering the sensitivity of the mean to the overall trend variation of vibration signals, a signal processing method based on improved M-SVD isdesigned by combining the mean singular value with sample entropy. Finally, envelope demodulation is performed on the signal processed by improved M-SVD to extract the weak fault features of the planetary gearbox. Using SNR and RMSE as quantitative metrics, the proposed method is compared with the standalone SSA-VMD, the improved M-SVD, and the original M-SVD methods in pitting fault feature extraction experiments. The proposed method effectively suppresses noise components while maximizing the retention of fault feature information.

Construction of an S7 Series PLC Monitoring System Based on WEB Serve

ＺＨＡＮＧＦａｎａ, ＴＡＯＭｉｎｂ, ＷＡＮＧＮａｂ

2026, 42(1):  54.  doi:10.3969/j.issn.1009-0479.2026.01.007

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 In this paper, Siemens S7‑1500/1200 PLCs are used to build a remote diagnostic testing system for intermittent faults. The WEB server functionality of the PLC is employed to achieve diagnosis and remote monitoring of short‑term intermittent faults in modern intelligent manufacturing control systems. The system enables on‑site engineering technicians to remotely monitor the overall status of electromechanical equipment faults via the Internet, and to conveniently receive the remote push notifications of fault information and view detailed fault data using a mobile phone or tablet.

Modular Programming Design for Single‑Bus Multi‑Channel Temperature Measurement and Control System

ＹＡＮＧＹｕ１, ＴＡＮＫｅ２, ＺＨＡＯＣｈａｎｇｍｅｉ

2026, 42(1):  62.  doi:10.3969/j.issn.1009-0479.2026.01.008

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 The programming methods for microcontrollers can be divided into linear programming and modular programming. Linear programming is a more traditional approach characterized by simple program structure and a strong focus on procedural flow. However, it often results in a bloated main program, disorganized functional logic, and poor readability and maintainability of the code. Modular programming emphasizes functional independence and modular invocation, featuring clear program structure as well as improved code maintainability and reusability. In multi-channel temperature control system based on MCU, modular programming can be applied to functional modules such as temperature detection, temperature display, and time-delay operations. This approach ensures that each functional module maintains its operational independence while retaining connectivity with other functions, thereby resulting in a more systematic and rational program design.

Preparation of Aggregates from Manganese Tailings Slag and Its Effect on Concrete Property

ＸＵＸｉｎｇｗｅｉ１, ２, ＷＡＮＧＺｈｉｂｉｎ１, ２, ＭＡＨｏｎｇｂｉａｏ２, ３, ＬＩＧｕｏｆａｎｇ１, ２

2026, 42(1):  67.  doi:10.3969/j.issn.1009-0479.2026.01.009

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To improve the comprehensive utilization rate of manganese tailings and reduce environmental pollution, this study used manganese tailings as raw materials to produce building aggregates through mechanical modification, and C20, C25 and C30 concretes were prepared by fully replacing natural aggregates. The feasibility of manganese tailings concrete (MC concrete) was investigated through mix design, performance testing, and heavy metal leaching toxicity analysis. The experimental results show that: 1) The manganese tailings slag aggregate complies with the Class III requirements of GB/T14684—2022 and GB/T14685—2022. 2) Under full aggregate replacement, the workability of MC is comparable to that of natural aggregate concrete, and its 28-day compressive strength reaches 43.62 MPa. Moreover, it effectively immobilizes heavy metals, resulting in low leaching and minimal environmental impact. 3) Through this approach, critical issues associated with industrial waste disposal and natural resource exploitation can be addressed. The overall cost is reduced by 40%～50%, and the exploitation of natural resources is correspondingly reduced, contributing to the green, environmentally friendly, and economically sustainable development strategy of "carbon peak and carbon neutrality".

Effect of Recycled Aggregate Replacement Ratio on Properties of Pervious Concrete

ＨＡＮＣｈａｎｇｊｕ, ＬＩＷｅｉ, ＣＨＥＮＫｅｙ

2026, 42(1):  74.  doi:10.3969/j.issn.1009-0479.2026.01.010

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Recycled coarse aggregate was produced from crushed and sieved waste concrete blocks, and its physical properties were tested. The recycled aggregate was blended with natural aggregate at different ratios, and pervious concrete specimens were prepared using P·O 42.5 cement, polycarboxylic high-performance water-reducing admixture, and a mineral enhancer. By investigating the effect of different mixing recycled coarse aggregate replacement ratios on the mechanical and permeability properties of pervious concrete, it was found that as the replacement ratio increased, the mechanical properties showed a gradual downward trend, while the effective porosity and permeability coefficient show an upward trend. Regression analysis indicates that the effective porosity and the compressive strength, as well as the permeability coefficient and compressive strength, exhibit a quadratic relationship, while the effective porosity and permeability coefficient are linearly correlated.

Construction of BIM Application Evaluation System for Construction Projects: A Grounded Theory Analysis of National, Provincial and Municipal Policy Texts

ＺＨＥＮＧＹｏｎｇｈｏｎｇ１ａ, ＬＩＴｏｎｇ２, ＦＵＷａｎｑｉａｎ１ｂ

2026, 42(1):  80.  doi:10.3969/j.issn.1009-0479.2026.01.011

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BIM technology plays an important role in the digital transformation and development of the construction industry. In order to better guide BIM application in construction projects, increase stakeholder engagement, and ensure that BIM technology effectively serves engineering construction, this study employs Nvivo software and adopts a grounded theory method. Using 45 national, provincial and municipal BIM application guidance documents and related policy documents as data sources, the study constructs an evaluation system for BIM application in construction projects from a theoretical perspective through open coding, axial coding, selective coding and theoretical saturation testing. The evaluation system systematically evaluates the BIM application in construction projects across three dimensions: BIM application technology foundation, application mechanism, and application depth. Incorporating 14 secondary indicators, the system enables project participants to evaluate their BIM application capabilities during project implementation, thereby facilitating continuous improvement of BIM application levels and promoting the digital transformation of China’s construction industry.

Bearing and Deformation Mechanism of Bamboo-Reinforced Soil Subgrade in Rural Highway Engineering#br#

ＺＨＡＮＧＷｅｉ, ＨＵＡＮＧＧｕａｎｒｏｎｇ, ＬＯＵＧｕａｎｇｌｏｎｇ

2026, 42(1):  89.  doi:10.3969/j.issn.1009-0479.2026.01.012

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To address road transportation safety issues caused by pavement damage resulting from subgrade instability and to evaluate the bearing performance of bamboo-reinforced soil subgrade,this study investigates the bearing and deformation mechanism of such subgrade in rural highway engineering.Taking a typical rural highway embankment as the research object,the Pasternak model was employed to simulate shear deformation relationships,calculate different bearing states,and perform interface element simulations.The results indicate that after bamboo reinforcement,the vertical earth pressure on the soil subgrade becomes more uniform,while horizontal displacement of the soil mass and the vertical settlement are reduced.Additionally,the field interface friction coefficient increases,and horizontal deformation of the reinforcement remains limited.These findings demonstrate that the bamboo reinforcement enhances the shear strength of the soil,improves subgrade bearing capacity and stability,and exhibits strong practical applicability.


Homestay Decoration Design Within the Six Senses Theory Framework: A Case Study of "Tongchenyuan" Boutique Homestay in Chengjian

ＷＵＧｕａｎｇｌｉ１, ＳＵＮＪｉａｏ２, ＷＵＤａｎ２

2026, 42(1):  95.  doi:10.3969/j.issn.1009-0479.2026.01.013

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This paper investigates the application of the Six Senses Theoretical framework in homestay decoration design,taking "Tongchenyuan" boutique homestay in Chengjiang,Yunnan,as a case study.It aims to reveal how a unique accommodation experience is created through deliberate design across the six dimensions-vision,hearing,smell,taste,touch and perception-integrated with local cultural expression and practical optimization,thereby enriching the theoretical system of tourism accommodation design.This study provides a novel theoretical and practical method for homestay decoration design,which helps to promote quality and brand building in the homestay industry and fosters the prosperity and sustainable development of rural tourism.

Comparative Analysis of Conservation Effectiveness of Nature Reserves in Yunnan Province Based on NDVI/EVI

ＱＩＵＣｈｅｎｇ

2026, 42(1):  100.  doi:10.3969/j.issn.1009-0479.2026.01.014

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Using the univariate linear trend method and buffer analysis,this study analyzed the spatio-temporal variation characteristics of the normalized difference vegetation index(NDVI)and enhanced vegetation index(EVI)in nature reserves in Yunnan Province.The differences in the conservation effectiveness evaluation results based on NDVI versus EVI were compared.The results showed that from 2000 to 2023,the NDVI/EVI indices of most nature reserves in Yunnan Province exhibited significant or highly significant growth.NDVI showed minor fluctuations,EVI exhibited more pronounced fluctuations.On the one hand,this indicates improving vegetation growth and effective conservation in Yunnan’s nature reserves.On the other hand,it shows that vegetation ecological stability characterized by NDVI is more stable than that characterized by EVI.Certain differences exist in the conservation effectiveness results for some nature reserves based on the two vegetation indices.From the perspective of NDVI/EVI change trends,nature reserves in Yunnan Province exhibit pronounced spatial heterogeneity and clustering.conservation effectiveness is better in the eastern, western, and southwestern parts of Yunnan. However, in northwest Yunnan, the number (and area) of nature reserves with poor conservation effectiveness identified by EVI is significantly larger than that identified by NDVI

Pilot-Scale Study of Combined Anaerobic-Aerobic and Flocculation Process for Treating Dyeing Wastewater

ＣＨＥＮＧＹｏｎｇｗｅｉ, ＰＥＮＧＹｉ, ＰＡＮＪｉｅ, ＲＥＮＹｏｕｃｈａｎｇ, ＲＵＡＮＨａｏｙｉ

2026, 42(1):  108.  doi:10.3969/j.issn.1009-0479.2026.01.015

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The characteristics of dyeing and printing wastewater include large water volume,significant fluctuation of water quality,high content of organic pollutants,deep color,and large pH fluctuations,which makes it one of the most difficult industrial wastewater to treat.Currently,the main methods for treating such wastewater are biological treatment,membrane separation,and chemical oxidation.However,these methods are often limited by poor biodegradability,high cost,and ineffective color removal.This experiment aimed to treat dyeing and printing wastewater discharged from a large dyeing and printing company by culturing and acclimating microorganisms.A combined process consisting of anaerobic,aerobic,and flocculation steps was used to degrade PVA-type pollutants in the wastewater.Throughout the process,the water quality of each treatment unit was continuously monitored to evaluate the biodegradability(BOD₅/COD ratio)of the dyeing wastewater and to determine the optimal process route.This provides a technical basis and reference for the promotion and application of the technology in industrial settings.

Preparation of UiO-66-NH₂ and Its Oxidative Desulfurization Performance#br#

ＮＩＮＧＭｅｎｃｕｉａ, ＱＩＵＦａｌｉ

2026, 42(1):  114.  doi:10.3969/j.issn.1009-0479.2026.01.016

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To overcome the high energy consumption and stringent conditions associated with conventional hydrodesulfurization (HDS) techniques, a novel oxidation desulfurization (ODS) method based on the metal-organic framework material UiO-66-NH₂ was investigated. This method employs dibenzothiophene (DBT) as a model sulfide, H₂O₂ as a green oxidant, and methanol as an extractant to achieve efficient desulfurization under mild conditions. The UiO-66-NH₂ catalyst, featuring high crystallinity and regular polyhedral morphology, was successfully synthesized via a solvothermal approach. Experimental studies investigated the effects of catalyst loading, reaction temperature, oxygen-to-sulfur ratio (O/S), and reaction time on desulfurization efficiency. Results indicate that under optimal conditions: 0.1 g catalyst loading, 60 ℃ reaction temperature, an O/S molar ratio of 4, and 180 min reaction time, DBT desulfurization exceeds 99%. The synergistic action of amino functional groups and Zr-oxo clusters promotes H₂O₂ activation to generate hydroxyl radicals (·OH). Concurrently, the material’s porous structure enhances the synergistic effects of sulfide adsorption and oxidation. This process offers advantages such as mild reaction conditions, elimination of hydrogen requirement, and environmental friendliness, providing an efficient, low-energy-consumption green pathway for achieving deep fuel desulfurization.

ＥｘｐｌｏｒａｔｉｏｎｏｆＣｌａｓｓｒｏｏｍ ＲｅｖｏｌｕｔｉｏｎｉｎＢｕｉｌｄｉｎｇＭａｔｅｒｉａｌｓＣｏｕｒｓｅ#br# ａｔａＨｉｇｈＬｅｖｅｌＨｉｇｈｅｒＶｏｃａｔｉｏｎａｌＣｏｌｌｅｇｅ：ＡＣａｓｅ ＳｔｕｄｙｏｎｔｈｅＰｒｏｐｅｒｔｉｅｓａｎｄＡｐｐｌｉｃａｔｉｏｎｓｏｆＣｏｎｃｒｅｔ#br#

ＬＩＪｉｎｇ１, ＺＯＵＣｈａｏｙｉｎｇ１, ＴＡＮＨｕｉ１, ＬＩＨｕａ１, ＬＩＣｈｅｎｇｌｉａｏ２, ＧＵＯＹｕｆｅｎｇ

2026, 42(1):  118.  doi:10.3969/j.issn.1009-0479.2026.01.017

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Abstract:The "Building Materials" course serves as a foundational course for the Construction Engineering Technology major.However,its traditional teaching mode suffers from issues such as overly simplistic teaching evaluation and a disconnection between course content and actual job workflows.To enhance the innovation and effectiveness of classroom teaching reform,the teaching team utilized a dual-support system of school-enterprise collaboration,guiding instruction through authentic job workflows of quality inspectors,material supervisors,construction technicians,and testing personnel.By implementing a three-stage pedagogical framework—"Exploration & Acquisition" before class to build foundational knowledge,"Knowledge & Practice" during class to cultivate technical skills and professional standards,and "Application & Expansion" after class to reinforce practical mastery—the team established a classroom model embodying the principle that "knowledge is the precursor to action,and action is the fulfillment of knowledge".This paper aims to propose a systematic reform design for the "Building Materials"course within the contest of "High-Level Higher Vocational Colleges" Project,covering four aspects:teaching content,teaching objectives,teaching strategies,and teaching evaluation.Taking the properties and applications of concrete as an example,this study conducts an in-depth exploration.Using the concrete properties and applications module as an empirical case,this study validates the model’s effectiveness in enhancing teaching efficacy and facilitating the integration of occupational standards into curriculum design,thereby providing a replicable practical paradigm for reforming similar course.