100 từ vựng và cụm từ vựng tiếng Anh về ngành nghề Quản lý dự án xây dựng đường cao tốc

Bài viết này tổng hợp 100 từ vựng và cụm từ vựng tiếng Anh chuyên ngành về Quản lý dự án xây dựng đường cao tốc. Các từ vựng này giúp bạn hiểu rõ hơn về các khía cạnh như lập kế hoạch, thiết kế, thi công và quản lý dự án, từ đó nắm vững thuật ngữ cần thiết để giao tiếp và làm việc hiệu quả trong ngành.

Từ vựng nghề Quản lý dự án xây dựng đường cao tốc

Highway Design	Thiết kế đường cao tốc
Road Alignment	Căn chỉnh đường
Pavement Structure	Cấu trúc mặt đường
Traffic Flow Analysis	Phân tích lưu lượng giao thông
Roadway Cross-Section	Mặt cắt ngang đường
Grade Separation	Tách tầng
Interchange Design	Thiết kế nút giao
Shoulder Construction	Xây dựng vai đường
Earthwork	Công tác đất
Subgrade Preparation	Chuẩn bị nền đường
Asphalt Paving	Lát nhựa đường
Concrete Paving	Lát bê tông
Drainage System	Hệ thống thoát nước
Road Marking	Kẻ vạch đường
Signage Installation	Lắp đặt biển báo
Traffic Control Devices	Thiết bị điều khiển giao thông
Bridge Engineering	Kỹ thuật cầu
Retaining Walls	Tường chắn
Tunnel Construction	Xây dựng hầm
Surveying	Khảo sát
Geotechnical Analysis	Phân tích địa kỹ thuật
Environmental Impact Assessment (EIA)	Đánh giá tác động môi trường (ĐTM)
Noise Barriers	Rào chắn tiếng ồn
Embankment Construction	Xây dựng đắp đất
Cut and Fill	Đào đắp
Stormwater Management	Quản lý nước mưa
Roadway Lighting	Chiếu sáng đường
Maintenance of Traffic (MOT)	Duy trì lưu lượng giao thông (MOT)
Quality Assurance (QA)	Đảm bảo chất lượng (QA)
Quality Control (QC)	Kiểm soát chất lượng (QC)
Contract Administration	Quản lý hợp đồng
Cost Estimation	Ước tính chi phí
Budget Management	Quản lý ngân sách
Project Scheduling	Lập kế hoạch dự án
Risk Management	Quản lý rủi ro
Project Feasibility Study	Nghiên cứu khả thi dự án
Stakeholder Communication	Truyền thông với các bên liên quan
Land Acquisition	Giải phóng mặt bằng
Construction Permits	Giấy phép xây dựng
Regulatory Compliance	Tuân thủ quy định
Site Preparation	Chuẩn bị mặt bằng
Materials Procurement	Mua sắm vật liệu
Construction Phasing	Giai đoạn thi công
Project Tendering	Đấu thầu dự án
Contractor Selection	Lựa chọn nhà thầu
Construction Supervision	Giám sát xây dựng
Traffic Signal Systems	Hệ thống đèn tín hiệu giao thông
Roadway Safety Audit	Đánh giá an toàn đường bộ
Temporary Traffic Control	Điều khiển giao thông tạm thời
Geotechnical Testing	Thử nghiệm địa kỹ thuật
Roadway Inspection	Kiểm tra đường bộ
Maintenance Schedule	Lịch bảo trì
Emergency Response Plan	Kế hoạch ứng phó khẩn cấp
Public Consultation	Tham vấn công chúng
Noise Control	Kiểm soát tiếng ồn
Vibration Mitigation	Giảm thiểu rung động
Soil Stabilization	Ổn định đất
Utility Relocation	Di dời tiện ích
Environmental Mitigation	Giảm thiểu tác động môi trường
Landscaping	Cảnh quan
Access Control	Kiểm soát truy cập
Roadway Expansion	Mở rộng đường
Roadway Rehabilitation	Phục hồi đường bộ
Bridge Maintenance	Bảo trì cầu
Highway Lighting Design	Thiết kế chiếu sáng đường cao tốc
Traffic Flow Management	Quản lý lưu lượng giao thông
Pedestrian Facilities	Cơ sở hạ tầng cho người đi bộ
Cyclist Facilities	Cơ sở hạ tầng cho người đi xe đạp
Incident Management	Quản lý sự cố
Construction Safety Plan	Kế hoạch an toàn xây dựng
Design-Build	Thiết kế-Xây dựng
Public-Private Partnership (PPP)	Đối tác công tư (PPP)
Cost-Benefit Analysis	Phân tích chi phí-lợi ích
Project Charter	Đề cương dự án
Change Order Management	Quản lý lệnh thay đổi
Resource Allocation	Phân bổ tài nguyên
Supply Chain Management	Quản lý chuỗi cung ứng
Milestone Tracking	Theo dõi các cột mốc
Progress Reporting	Báo cáo tiến độ
Work Breakdown Structure (WBS)	Cấu trúc phân chia công việc (WBS)
Earned Value Management (EVM)	Quản lý giá trị thu được (EVM)
Schedule Compression	Nén tiến độ
Contingency Planning	Lập kế hoạch dự phòng
Scope Management	Quản lý phạm vi
Client Coordination	Phối hợp với khách hàng
Final Inspection	Kiểm tra cuối cùng
Project Handover	Bàn giao dự án
Commissioning	Nghiệm thu và vận hành
Safety Inspections	Kiểm tra an toàn
Contractual Obligations	Nghĩa vụ hợp đồng
Operational Testing	Thử nghiệm vận hành
Performance Metrics	Chỉ số hiệu suất
Post-Construction Review	Đánh giá sau thi công
Lessons Learned	Bài học kinh nghiệm
Project Documentation	Tài liệu dự án
Asset Management	Quản lý tài sản
Traffic Simulation	Mô phỏng giao thông
Roadway Capacity Analysis	Phân tích năng lực đường
Design Standards	Tiêu chuẩn thiết kế
Construction Methodology	Phương pháp thi công

Bài viết sử dụng thuật ngữ trên

Highway Design: The highway design includes multiple lanes to accommodate increasing traffic volumes.
Road Alignment: Proper road alignment is crucial for ensuring a smooth driving experience.
Pavement Structure: The pavement structure was engineered to handle heavy truck loads.
Traffic Flow Analysis: Traffic flow analysis was conducted to optimize the intersection layout.
Roadway Cross-Section: The roadway cross-section includes lanes, shoulders, and drainage systems.
Grade Separation: Grade separation is used to eliminate conflicts between vehicles and trains at crossings.
Interchange Design: The interchange design aims to improve traffic efficiency and safety.
Shoulder Construction: Shoulder construction provides additional space for emergency stops and breakdowns.
Earthwork: Earthwork involves moving large quantities of soil to create the roadbed.
Subgrade Preparation: Subgrade preparation is essential for providing a stable foundation for the roadway.
Asphalt Paving: Asphalt paving was chosen for its durability and smooth surface.
Concrete Paving: Concrete paving offers a long-lasting surface for high-traffic areas.
Drainage System: A well-designed drainage system prevents water accumulation on the road.
Road Marking: Road marking is used to delineate lanes and guide drivers.
Signage Installation: Signage installation includes placing road signs for navigation and safety.
Traffic Control Devices: Traffic control devices like signals and signs manage vehicle movement effectively.
Bridge Engineering: Bridge engineering involves designing structures to span over obstacles like rivers.
Retaining Walls: Retaining walls are used to support the roadbed and prevent soil erosion.
Tunnel Construction: Tunnel construction requires specialized equipment and techniques.
Surveying: Surveying is conducted to measure and map the land for accurate road placement.
Geotechnical Analysis: Geotechnical analysis assesses soil conditions to ensure road stability.
Environmental Impact Assessment (EIA): An Environmental Impact Assessment was required to evaluate potential ecological effects.
Noise Barriers: Noise barriers were installed to reduce traffic noise for nearby residents.
Embankment Construction: Embankment construction supports the roadbed and maintains its elevation.
Cut and Fill: The cut and fill process balanced the excavation and fill required for the road.
Stormwater Management: Stormwater management systems were designed to handle runoff and prevent flooding.
Roadway Lighting: Roadway lighting improves visibility and safety during night driving.
Maintenance of Traffic (MOT): Maintenance of Traffic plans ensure smooth traffic flow during construction.
Quality Assurance (QA): Quality Assurance processes were implemented to ensure construction standards.
Quality Control (QC): Quality Control checks were conducted to maintain high construction quality.
Contract Administration: Contract Administration involves managing agreements with contractors.
Cost Estimation: Accurate cost estimation was crucial for budgeting the highway project.
Budget Management: Budget management ensures that the project stays within financial constraints.
Project Scheduling: Project scheduling outlines the timeline and deadlines for construction activities.
Risk Management: Risk management strategies were developed to mitigate potential issues during construction.
Project Feasibility Study: A Project Feasibility Study assessed whether the highway project was viable.
Stakeholder Communication: Effective stakeholder communication helps keep all parties informed and engaged.
Land Acquisition: Land acquisition was necessary to secure the property required for the highway.
Construction Permits: Obtaining construction permits was a critical step before starting the project.
Regulatory Compliance: Regulatory compliance ensures that all construction activities meet legal requirements.
Site Preparation: Site preparation involved clearing and grading the land before construction began.
Materials Procurement: Materials procurement ensures that all necessary supplies are available for construction.
Construction Phasing: Construction phasing divided the project into manageable stages to ensure timely completion.
Project Tendering: The project tendering process attracted bids from various contractors.
Contractor Selection: Contractor selection was based on experience, cost, and project requirements.
Construction Supervision: Construction supervision ensured that work was performed according to specifications.
Traffic Signal Systems: Traffic signal systems were upgraded to improve traffic flow at intersections.
Roadway Safety Audit: A roadway safety audit identified potential hazards and recommended improvements.
Temporary Traffic Control: Temporary traffic control measures were implemented to manage traffic during construction.
Geotechnical Testing: Geotechnical testing provided data on soil stability for the road foundation.
Roadway Inspection: Roadway inspection is conducted to identify maintenance needs and ensure safety.
Maintenance Schedule: A maintenance schedule was developed to regularly inspect and repair the road.
Emergency Response Plan: An emergency response plan was created to address accidents and other incidents.
Public Consultation: Public consultation was held to gather feedback and address community concerns.
Noise Control: Noise control measures were introduced to minimize disturbances from construction activities.
Vibration Mitigation: Vibration mitigation techniques were used to protect nearby structures during construction.
Soil Stabilization: Soil stabilization methods were applied to prevent erosion and maintain road stability.
Utility Relocation: Utility relocation was required to accommodate the new roadway alignment.
Environmental Mitigation: Environmental mitigation strategies were employed to reduce the project’s ecological impact.
Landscaping: Landscaping was incorporated to enhance the visual appeal of the highway corridor.
Access Control: Access control measures regulate entry points to maintain traffic flow and security.
Roadway Expansion: Roadway expansion was necessary to accommodate increased traffic volumes.
Roadway Rehabilitation: Roadway rehabilitation involved resurfacing and repairing existing roads.
Bridge Maintenance: Bridge maintenance ensures the structural integrity and safety of highway bridges.
Highway Lighting Design: Highway lighting design improves visibility and safety on the road at night.
Traffic Flow Management: Traffic flow management techniques were applied to reduce congestion and delays.
Pedestrian Facilities: Pedestrian facilities were included to ensure safe crossing points for walkers.
Cyclist Facilities: Cyclist facilities such as bike lanes were added to support non-motorized transportation.
Incident Management: Incident management protocols were established to quickly address accidents and disruptions.
Construction Safety Plan: The construction safety plan outlined procedures to protect workers on site.
Design-Build: The design-build approach streamlined the project by combining design and construction phases.
Public-Private Partnership (PPP): The project utilized a Public-Private Partnership to share risks and resources.
Cost-Benefit Analysis: A cost-benefit analysis evaluated the economic advantages of the highway project.
Project Charter: The project charter defined the scope, objectives, and stakeholders of the highway project.
Change Order Management: Change order management tracked and documented modifications to the project scope.
Resource Allocation: Resource allocation ensured that the necessary materials and personnel were available.
Supply Chain Management: Supply chain management optimized the delivery of construction materials and equipment.
Milestone Tracking: Milestone tracking monitored the progress and completion of key project stages.
Progress Reporting: Regular progress reporting provided updates on project status and achievements.
Work Breakdown Structure (WBS): The Work Breakdown Structure organized the project into manageable components.
Earned Value Management (EVM): Earned Value Management was used to assess project performance and progress.
Schedule Compression: Schedule compression techniques were applied to accelerate project completion.
Contingency Planning: Contingency planning addressed potential risks and prepared for unexpected issues.
Scope Management: Scope management defined and controlled the project’s deliverables and boundaries.
Client Coordination: Client coordination ensured that the project’s objectives and requirements were met.
Final Inspection: A final inspection was conducted to verify that all project specifications were fulfilled.
Project Handover: The project handover marked the formal transfer of the completed highway to the client.
Commissioning: Commissioning involved testing and validating the highway’s systems and components.
Safety Inspections: Safety inspections identified and addressed potential hazards on the construction site.
Contractual Obligations: Contractual obligations outlined the responsibilities and deliverables of each party.
Operational Testing: Operational testing assessed the functionality and performance of the highway infrastructure.
Performance Metrics: Performance metrics were used to evaluate the effectiveness and efficiency of the project.
Post-Construction Review: A post-construction review analyzed the project’s outcomes and identified lessons learned.
Lessons Learned: Lessons learned from the project were documented to improve future construction practices.
Project Documentation: Project documentation included all records and reports related to the construction process.
Asset Management: Asset management strategies were implemented to maintain and optimize highway assets.
Traffic Simulation: Traffic simulation models helped predict and manage traffic flow on the new highway.
Roadway Capacity Analysis: Roadway capacity analysis evaluated the road’s ability to handle traffic volumes.
Design Standards: Design standards provided guidelines for ensuring the quality and safety of the highway.
Construction Methodology: The construction methodology outlined the techniques and processes used in building the highway.

Bài tập

The ________ includes multiple lanes and interchanges to accommodate high traffic volumes.
Proper ________ ensures that the road curves and straight sections are optimally aligned.
The ________ is designed to handle heavy truck loads and high traffic.
________ was performed to understand the patterns of vehicle movement and optimize traffic signals.
The ________ of the road includes lanes, shoulders, and drainage systems.
________ helps to separate different levels of traffic, such as highways and local roads.
The ________ is crucial for managing the transition between different roads and highways.
________ provides additional space for emergency stops and breakdowns.
The ________ involves moving large amounts of soil to create a stable roadbed.
________ is essential for creating a stable foundation for the highway.
________ was chosen for its durability and smooth surface finish.
________ provides a long-lasting surface and is suitable for high-traffic areas.
A well-designed ________ prevents water from accumulating on the road surface.
________ are used to guide drivers and ensure safe navigation on the highway.
________ includes the installation of road signs and signals to improve safety.
Effective ________ helps manage vehicle movement and reduce accidents.
________ focuses on designing structures to span over rivers and valleys.
________ are used to support the roadbed and prevent soil erosion.
________ requires special techniques and equipment to dig tunnels under obstacles.
________ provides accurate measurements and mapping for road construction.
________ assesses soil conditions to ensure the road’s stability and safety.
An ________ was required to evaluate the environmental impact of the highway project.
________ were installed to reduce the impact of traffic noise on surrounding areas.
________ supports the roadbed and helps maintain its elevation.
The ________ process involves balancing excavation and fill to create a stable roadbed.
Proper ________ is essential for handling runoff and preventing flooding on the road.
________ improves visibility and safety on the road during nighttime driving.
The ________ plan ensures that traffic flow is maintained during construction activities.
________ processes were implemented to ensure construction quality and adherence to standards.
Regular ________ checks were conducted to maintain high-quality construction.
________ involves managing agreements and performance with contractors.
Accurate ________ is crucial for planning and managing the project’s finances.
________ ensures that the project remains within the financial limits set by the budget.
The ________ outlines all the tasks and deadlines for the highway construction project.
________ strategies were developed to address and mitigate potential project risks.
The ________ assessed whether the highway project was viable and feasible.
Effective ________ helps to keep all stakeholders informed and involved throughout the project.
________ was necessary to acquire the land required for the construction of the highway.
Securing ________ was a crucial step before any construction work could commence.
Ensuring ________ involves meeting all the legal and regulatory requirements for construction.
________ involved clearing and preparing the site before beginning road construction.
Proper ________ ensures that all materials needed for construction are sourced and delivered.
________ divides the project into manageable stages to ensure timely completion.
The ________ attracted bids from several contractors interested in working on the highway project.
________ provided detailed measurements and data needed for accurate road placement.
The ________ examined soil conditions and their suitability for the road construction.
________ focuses on the engineering aspects of building the road and its components.
________ ensures that structures like bridges and retaining walls are strong and durable.
________ involves laying down the track or road surface to complete the construction.
________ was tasked with producing and delivering concrete sleepers for the roadbed.
The ________ ensures that the joints between rail sections are properly aligned and secured.
The new ________ was equipped with safety barriers and enhanced visibility features.
The ________ manages and controls the movement of vehicles and trains across the network.
The ________ supplies electrical power to the lighting and signaling systems along the road.
________ focuses on the design and installation of the road’s electrical systems.
The ________ team handles the maintenance and repair of machinery and equipment.
The ________ project aimed to reduce carbon emissions by incorporating green technologies.
The ________ system controls the signals and switches to prevent train conflicts.
Reliable ________ are essential for ensuring the safety and smooth operation of the road.
________ systems enhance the efficiency and safety of vehicle movements on the road.
The ________ is responsible for maintaining and repairing the signaling equipment.
The new ________ was designed to handle the weight of heavy vehicles and prevent damage.
Proper ________ ensures that the road’s foundation remains stable and secure.
The ________ addressed concerns about potential landslides and road stability.
A well-designed ________ prevents water from accumulating on and around the road.
________ was required to relocate utilities that were in the path of the new highway.
________ were installed to shield residential areas from the noise produced by the highway.
The ________ outlined the schedule for construction activities and milestones.
________ monitored the project’s progress and ensured timely completion of tasks.
Effective ________ strategies helped to address and resolve issues that arose during construction.
The ________ prepared for potential problems by developing contingency plans.
The ________ defined the project’s objectives, scope, and key stakeholders.
A ________ was issued to modify aspects of the road design based on new requirements.
Efficient ________ ensured that construction activities were performed safely and effectively.
Obtaining ________ was essential before commencing work on the highway project.
Adhering to ________ was necessary to avoid legal issues and ensure compliance.
Effective ________ kept the project on schedule and within budget.
Proper ________ ensured that resources, including labor and materials, were allocated efficiently.
________ ensured timely and cost-effective delivery of materials and equipment.
Reaching the project ________ was a significant achievement in the construction timeline.
________ tracked the completion of key stages and provided updates on progress.
________ ensured that construction work met the required quality and safety standards.
The ________ documented the final state of the highway after construction was completed.
________ involved replacing worn-out sections of the road to maintain safety and functionality.
The ________ project aimed to increase the road network’s capacity to accommodate more traffic.
________ allowed for the addition of more lanes and improved traffic flow.
The new ________ line reduced travel time between major cities significantly.
The ________ system was upgraded to support the city’s growing population and transportation needs.
The ________ connected different areas of the city and provided efficient public transportation.
The new ________ improved the efficiency of transporting goods across regions.
________ is expected to rise with the introduction of additional rail services.
The ________ managed the coordination of train and vehicle movements throughout the network.
The ________ identified areas needing immediate attention to address safety concerns.
An ________ was conducted to investigate the cause of a recent road accident.
________ was optimized to reduce the waiting time for vehicles at traffic signals.
Regular ________ is necessary to keep the road in good condition and safe for use.
A ________ evaluated the potential risks and hazards associated with the road project.
Effective ________ ensured that all project tasks were completed on time and to specification.
________ supervised the construction work to ensure it adhered to the project plan.
The ________ marked the official beginning of the road’s operation and usage.