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Radiation Shielding Design & Calculation Service (Physics Report) in Morocco
Engineering Excellence & Technical Support
Radiation Shielding Design & Calculation Service (Physics Report) High-standard technical execution following OEM protocols and local regulatory frameworks.
Optimized Shielding Design for Medical Imaging Facilities
Leveraging advanced Monte Carlo simulations and specialized radiation transport codes, our physics reports meticulously analyze photon and neutron shielding requirements for CT scanners, linear accelerators, and PET/CT suites, ensuring regulatory compliance and personnel safety with minimal material usage tailored for Moroccan healthcare infrastructure.
Nuclear Reactor Shielding Analysis and Verification
Providing comprehensive physics calculations for nuclear reactor shielding, including neutron and gamma attenuation analysis. Our reports detail material selection, geometry optimization, and dose rate estimations to meet stringent international safety standards for research reactors and potential future power generation facilities in Morocco.
Industrial Radiation Source Shielding for NDT & Radiography
Our expertise extends to designing and calculating shielding for industrial applications such as Non-Destructive Testing (NDT) and industrial radiography. Physics reports detail optimal shielding configurations for X-ray and gamma sources, ensuring operator safety and environmental protection in Moroccan industrial settings.
What Is Radiation Shielding Design & Calculation Service (Physics Report) In Morocco?
Radiation shielding design and calculation services, in the context of a physics report, refer to the specialized engineering and scientific discipline focused on minimizing the transmission of ionizing radiation through materials. This involves a rigorous process of analyzing radiation sources, determining the required attenuation levels, selecting appropriate shielding materials, and calculating the thickness and configuration of these materials to achieve a specified level of radiation protection. These services are crucial for ensuring the safety of personnel, the public, and sensitive equipment from the harmful effects of ionizing radiation. The physics principles governing these calculations include exponential attenuation laws, dose rate calculations, neutron transport, and photon interactions with matter. The output is a comprehensive physics report detailing the methodology, assumptions, material properties, dose calculations, and final shielding design specifications.
| Who Needs Radiation Shielding Design & Calculation Services in Morocco? | Typical Use Cases | |||||
|---|---|---|---|---|---|---|
| Nuclear Power Plants and Research Reactors: For containment structures, reactor vessels, and surrounding facilities to protect staff and the environment. | Medical Facilities (Radiology, Nuclear Medicine, Radiotherapy): Designing shielding for X-ray rooms, CT scanners, PET scanners, linear accelerators, and brachytherapy suites to protect patients, staff, and the public. | Industrial Radiography and Non-Destructive Testing (NDT) Facilities: Shielding for gamma radiography sources and X-ray inspection systems. | Particle Accelerators and Synchrotrons: Shielding for experimental areas, beamlines, and target stations to mitigate radiation hazards. | Radioactive Material Handling and Storage Facilities: Designing shielded enclosures and containers for the safe storage and transport of radioactive sources. | Emergency Response and Disaster Preparedness: Assessing and recommending shielding for temporary shelters or response centers in the event of radiological incidents. | Research Laboratories: For experimental setups involving radioactive isotopes or radiation-generating equipment. |
| Design of containment structures for nuclear facilities. | Shielding for diagnostic and therapeutic medical equipment rooms. | Development of safe operational procedures for NDT facilities. | Mitigation of radiation exposure from particle accelerator operations. | Design of secure and shielded storage solutions for radioactive waste. | Assessment of radiation risks in legacy sites or during decommissioning. | Validation of radiation protection measures in scientific research. |
Key Components of Radiation Shielding Design & Calculation Services
- Radiation Source Characterization: Identifying the type, energy spectrum, intensity, and spatial distribution of the radiation source (e.g., gamma rays, neutrons, X-rays, charged particles).
- Shielding Material Selection: Evaluating and selecting materials with optimal attenuation properties for the specific radiation type and energy. Common materials include lead, concrete, water, steel, and specialized composites.
- Attenuation Calculations: Employing physics models and software to determine the required shield thickness to reduce radiation levels to acceptable limits.
- Dose Rate Assessment: Calculating the expected radiation dose rates at various locations, including occupied areas and controlled zones.
- ALARA (As Low As Reasonably Achievable) Principle Integration: Ensuring that shielding designs not only meet regulatory requirements but also adhere to the ALARA principle.
- Regulatory Compliance: Ensuring the design meets national and international radiation protection standards and regulations applicable in Morocco.
- Report Generation: Producing a detailed physics report documenting the entire design process, calculations, material specifications, and validation of the shielding effectiveness.
Who Needs Radiation Shielding Design & Calculation Service (Physics Report) In Morocco?
This physics report identifies the critical need for specialized radiation shielding design and calculation services within Morocco. As Morocco's technological and industrial sectors advance, particularly in areas involving nuclear technology, medical applications, and research, the imperative for robust radiation safety measures becomes paramount. Effective shielding design is not merely a regulatory requirement but a fundamental aspect of protecting personnel, the public, and the environment from the potential hazards of ionizing radiation. This service ensures compliance with national and international safety standards, minimizes radiation exposure, and supports the safe and responsible deployment of radiation-generating equipment and facilities.
| Target Customer/Entity | Key Departments/Applications | Specific Needs/Reasons for Service |
|---|---|---|
| Hospitals & Clinics | Radiology Departments (X-ray, CT, Fluoroscopy), Nuclear Medicine Departments (PET, SPECT), Radiation Oncology Centers (Linear Accelerators, Brachytherapy), Diagnostic Imaging Centers | Designing shielded rooms for medical imaging equipment, radiotherapy bunkers, and hot labs to meet ALARA (As Low As Reasonably Achievable) principles and regulatory limits. Ensuring patient and staff safety from diagnostic and therapeutic radiation sources. |
| Industrial Facilities | Non-Destructive Testing (NDT) Laboratories, Manufacturing Plants (e.g., food irradiation, sterilization), Oil & Gas Sector (e.g., well logging, inspection), Mining and Mineral Processing | Shielding for industrial X-ray and gamma radiography equipment, electron beam accelerators, and radioactive sources used in process control or sterilization. Preventing occupational exposure to workers and environmental release of radiation. |
| Research & Academic Institutions | University Physics & Engineering Departments, Research Centers (e.g., material science, life sciences), National Laboratories | Designing shielded enclosures for research-grade X-ray diffractometers, particle accelerators, neutron sources, and radioactive isotope laboratories. Supporting safe experimental setups and protecting researchers. |
| Nuclear Power Plants & Related Facilities (Future/Potential) | Reactor Control Rooms, Spent Fuel Storage Areas, Waste Management Facilities | Crucial for the safe operation and decommissioning of nuclear facilities. Detailed calculations for shielding against neutron and gamma radiation from reactor cores and radioactive materials. |
| Government Agencies & Regulatory Bodies | National Nuclear Regulatory Authority (e.g., Moroccan Agency for Nuclear Safety and Security - AMSN), Ministry of Health, Ministry of Environment, Customs & Border Control (for portable radiation detectors) | Reviewing and approving radiation safety plans, conducting inspections, and enforcing radiation protection regulations. Expertise for risk assessments and incident response related to radiation sources. |
| Construction & Engineering Companies | Architectural Firms, Civil Engineering Contractors, Building Material Suppliers | Incorporating radiation shielding requirements into building designs and specifications for new facilities or renovations involving radiation-generating equipment. Understanding material properties and construction techniques for effective shielding. |
| Medical Device Manufacturers & Suppliers | Companies producing or distributing X-ray machines, CT scanners, radiotherapy equipment, and other radiation-emitting devices | Providing guidance on shielding recommendations and compliance for their products, ensuring safe installation and operation at client sites. |
Target Customers and Departments Requiring Radiation Shielding Design & Calculation Services in Morocco
- Healthcare Sector
- Industrial Sector
- Research & Development Sector
- Government & Regulatory Bodies
- Construction & Engineering Firms
Radiation Shielding Design & Calculation Service (Physics Report) Process In Morocco
This document outlines the typical workflow for a Radiation Shielding Design & Calculation Service, presented as a Physics Report, within the Moroccan context. The process is structured to ensure client needs are met while adhering to relevant safety standards and regulations. It encompasses distinct phases, from the initial client inquiry to the final delivery of the comprehensive physics report.
| Phase | Key Activities | Deliverables/Outcomes | Moroccan Contextual Considerations |
|---|---|---|---|
| Inquiry & Initial Consultation | Understanding client needs, radiation source, facility, regulatory requirements (AMSSNucl). | Project scope definition, initial requirements document. | Awareness of specific Moroccan regulations and licensing procedures. |
| Data Collection & Site Assessment | Gathering drawings, specifications, site visits, measurements. | Comprehensive data set for calculations, site assessment report. | Local infrastructure knowledge, access permits for site visits. |
| Design & Modeling | Material selection, 3D modeling using simulation software. | Shielding design options, preliminary models. | Availability of local expertise in simulation tools. |
| Radiation Shielding Calculations | Monte Carlo simulations, dose rate calculations, compliance checks. | Detailed calculation results, attenuation factors, radiation levels. | Adherence to AMSSNucl dose limits and ALARA principle. |
| Report Generation & Review | Compiling physics report, internal review. | Finalized physics report (hardcopy/digital). | Report format requirements for Moroccan authorities, language considerations. |
| Client Presentation & Delivery | Presenting report, answering questions, delivering final report. | Client acceptance, final physics report. | Understanding client's stakeholder engagement process. |
| Post-Delivery Support (Optional) | Follow-up questions, implementation assistance, regulatory support. | Resolution of queries, successful implementation. | Familiarity with Moroccan construction and licensing phases. |
Radiation Shielding Design & Calculation Service (Physics Report) Process in Morocco: Workflow
- {"steps":["Client initiates contact (Email, Phone, Formal Request).","Initial consultation to define project scope and objectives.","Gather detailed information on radiation source, facility, and regulatory context.","Clarify client expectations and desired outcomes for the physics report."],"title":"Phase 1: Inquiry & Initial Consultation","description":"The process begins with the client initiating contact, often through email, phone, or a formal request. This is followed by an in-depth consultation to understand the specific radiation source, the desired shielding objectives, the facility layout, and any existing constraints or regulatory requirements in Morocco (e.g., those from the Moroccan Agency for Nuclear and Radiation Safety - AMSSNucl). Key information gathered includes the type and energy of radiation, dose rate limits, operational procedures, and the physical environment."}
- {"steps":["Review of client-provided documentation (drawings, specifications).","Site visit to the Moroccan facility for on-site assessment and measurements (if required).","Verification of architectural layouts and operational areas.","Identification of potential shielding materials and geometric configurations."],"title":"Phase 2: Data Collection & Site Assessment","description":"Following the initial consultation, a comprehensive data collection phase commences. This may involve reviewing existing architectural drawings, equipment specifications, and operational protocols. If necessary, a site visit to the Moroccan facility is conducted to physically assess the environment, identify potential shielding locations, and confirm measurements. This phase ensures all relevant parameters for accurate calculations are obtained."}
- {"steps":["Selection of optimal shielding materials based on radiation characteristics.","Development of 3D geometric models of the facility and shielding structures.","Utilisation of specialized Monte Carlo or discrete ordinates simulation software.","Exploration of multiple shielding design configurations and geometries."],"title":"Phase 3: Design & Modeling","description":"With the gathered data, the shielding design begins. This involves selecting appropriate shielding materials (e.g., lead, concrete, water, polyethylene) based on radiation type, energy, and required attenuation. Sophisticated simulation software (e.g., MCNP, GEANT4, RELAX) is employed to create a 3D model of the facility and the proposed shielding. This modeling allows for virtual testing of various design options."}
- {"steps":["Execution of radiation transport simulations.","Calculation of dose rates, neutron fluxes, and other relevant radiation metrics.","Assessment of shielding effectiveness against defined dose rate limits.","Verification of compliance with Moroccan nuclear and radiation safety regulations."],"title":"Phase 4: Radiation Shielding Calculations","description":"This is the core of the service, where detailed radiation transport calculations are performed using the established models. The simulations predict radiation levels at various points within and around the shielded area, taking into account factors like dose rates, neutron fluxes, and gamma attenuation. Calculations are performed to ensure compliance with Moroccan and international radiation protection standards."}
- {"steps":["Compilation of all simulation data and analysis into a structured report.","Inclusion of methodology, input parameters, and detailed results.","Presentation of recommended shielding design specifications.","Internal peer review of the physics report for accuracy and completeness."],"title":"Phase 5: Report Generation & Review","description":"The results of the calculations are compiled into a comprehensive physics report. This report typically includes an executive summary, detailed methodology, input parameters, simulation results, analysis of findings, recommended shielding design specifications, and conclusions. The report undergoes internal review by experienced physicists to ensure accuracy, clarity, and completeness, adhering to the standards expected for reports submitted to Moroccan regulatory bodies."}
- {"steps":["Formal presentation of the physics report to the client.","Explanation of results, recommendations, and implications.","Addressing client queries and feedback.","Delivery of the final physics report in the specified format."],"title":"Phase 6: Client Presentation & Delivery","description":"The finalized physics report is formally presented to the client. This often involves a meeting where the findings are explained, and any client questions are addressed. The client receives the official physics report in the agreed-upon format, enabling them to proceed with procurement, construction, or licensing applications with the relevant Moroccan authorities."}
- {"steps":["Answering post-delivery client inquiries.","Assisting with implementation of the shielding design.","Providing support during regulatory audits or inspections."],"title":"Phase 7: Post-Delivery Support (Optional)","description":"Depending on the service agreement, post-delivery support may be offered. This could include answering follow-up questions, assisting with the integration of the shielding design into the overall project, or providing support during regulatory inspections in Morocco."}
Radiation Shielding Design & Calculation Service (Physics Report) Cost In Morocco
This report outlines the cost of Radiation Shielding Design & Calculation services in Morocco, focusing on the key factors influencing pricing and providing estimated cost ranges in Moroccan Dirhams (MAD). These services are crucial for ensuring safety and compliance in industries utilizing radioactive materials or X-ray equipment, including healthcare, nuclear medicine, research, and industrial radiography.
| Service Component | Estimated Cost Range (MAD) |
|---|---|
| Preliminary Shielding Assessment (e.g., for a small X-ray room) | 2,000 - 7,500 |
| Detailed Shielding Design for a Medium-Sized Radiotherapy Bunker (e.g., linear accelerator) | 15,000 - 50,000 |
| Comprehensive Shielding Design for a Nuclear Medicine Facility (SPECT/PET, hot lab) | 30,000 - 100,000+ |
| Shielding Calculations for Industrial Radiography Facilities | 7,000 - 25,000 |
| Shielding Design for Research Laboratories with Radiation Sources | 10,000 - 40,000 |
| Review and Validation of Existing Shielding Designs | 5,000 - 20,000 |
| On-site Radiation Surveys and Verification (post-construction) | 3,000 - 15,000 (per visit/facility) |
Factors Influencing Radiation Shielding Design & Calculation Costs in Morocco
- Project Complexity and Scale: The size and intricacy of the facility, the number and type of radiation sources, and the required shielding thickness all significantly impact the engineering effort and thus the cost.
- Type of Radiation Source: Different types of radiation (e.g., gamma, neutron, X-ray) require different shielding materials and design approaches, affecting the complexity of calculations.
- Regulatory Requirements and Standards: Adherence to specific national (e.g., Moroccan Nuclear Safety and Security Directorate - ADSN) and international standards (e.g., ICRP, IAEA) often necessitates detailed analysis and documentation, increasing costs.
- Software and Tools Used: The sophistication of the simulation software (e.g., MCNP, GEANT4) employed for calculations can influence the perceived value and cost, with more advanced tools potentially commanding higher fees.
- Experience and Reputation of the Provider: Highly experienced and reputable physics consulting firms or individual physicists with a proven track record in radiation shielding may charge premium rates.
- Scope of Work: The service can range from preliminary calculations to full design packages, including material specifications, construction drawings, and site inspections. A more comprehensive scope will naturally be more expensive.
- Location within Morocco: While less of a primary driver, very remote or challenging-to-access locations might incur minor additional costs for site visits or logistics.
- Reporting and Documentation: The level of detail and formality required in the final report and accompanying documentation can impact the time spent by the consultant.
- Urgency of the Project: Expedited services often come with a surcharge due to the need for reprioritization and potentially overtime work.
Affordable Radiation Shielding Design & Calculation Service (Physics Report) Options
This report outlines our Affordable Radiation Shielding Design & Calculation Service, providing essential physics-based solutions for various applications including medical facilities, research laboratories, industrial settings, and nuclear power plants. We focus on delivering cost-effective and compliant shielding designs that minimize radiation exposure and ensure safety. Our service leverages advanced simulation tools and expert physics analysis to determine optimal material choices, thicknesses, and configurations.
| Cost-Saving Strategy | Description | Benefit |
|---|---|---|
| Phased Project Approach | Breaking down the project into smaller, manageable phases, allowing for review and adjustments before committing to the full scope. Starting with core calculations and scaling up as needed. | Reduces upfront investment and allows for course correction, preventing unnecessary expenditure on over-engineered solutions. |
| Material Optimization | Thorough analysis of material properties and cost-effectiveness, recommending the most economical yet effective shielding materials (e.g., lead vs. concrete vs. specialized composites). | Significantly lowers material procurement costs without compromising safety performance. |
| Standardized Design Templates | Utilizing pre-validated shielding configurations and calculation methodologies for common radiation sources and facility types, where applicable. | Speeds up the design process, reduces custom analysis time, and lowers labor costs. |
| Remote Collaboration & Digital Delivery | Conducting consultations and delivering reports digitally, minimizing travel expenses and site visit requirements. | Reduces overheads associated with client interaction and project execution. |
| Early Stage Engagement | Involving our physics experts early in the project planning phase to identify shielding requirements before construction begins. | Prevents costly retrofitting and design changes later in the project lifecycle. |
Service Offerings & Value Bundles
- {"title":"Core Calculation Package","description":"Includes detailed Monte Carlo simulations (e.g., MCNP, GEANT4) for photon and neutron shielding, dose rate assessments at critical locations, and identification of primary shielding materials."}
- {"title":"Standard Design Package","description":"Builds upon the Core Package by incorporating preliminary structural considerations, material procurement advice, and basic compliance checks against relevant regulatory standards (e.g., NCRP, ICRP)."}
- {"title":"Comprehensive Design & Optimization Package","description":"Offers advanced optimization algorithms to minimize shielding weight and volume while meeting stringent dose limits. Includes detailed construction blueprints, material specifications, and a final compliance report with licensing support recommendations."}
- {"title":"Add-on Modules","description":"Specialized calculations for specific radiation sources (e.g., accelerators, X-ray tubes), seismic analysis of shielding structures, and detailed gamma spectroscopy shielding. Also includes project management integration and collaborative design sessions."}
Verified Providers In Morocco
When seeking healthcare services in Morocco, identifying Verified Providers is paramount for ensuring quality, safety, and peace of mind. Franance Health stands out as a leading platform dedicated to connecting individuals with accredited and trustworthy healthcare professionals across the nation. Their rigorous credentialing process and commitment to transparency make them the definitive choice for anyone prioritizing their well-being.
| Credential Aspect | Franance Health Verification Standard | Patient Benefit |
|---|---|---|
| Educational Background | Verification of degrees and certifications from accredited institutions. | Ensures providers have foundational medical knowledge. |
| Professional Experience | Thorough review of past roles, practice history, and client feedback (where applicable). | Confirms practical application of skills and a track record of service. |
| Specialized Training & Certifications | Validation of advanced training and board certifications in specific medical fields. | Guarantees access to highly skilled specialists for complex conditions. |
| Licensure & Regulatory Compliance | Confirmation of current and valid medical licenses and adherence to Moroccan healthcare regulations. | Ensures providers operate legally and ethically. |
| Ethical Conduct & Professionalism | Checks for any disciplinary actions or breaches of professional conduct. | Promotes a safe and respectful patient-provider relationship. |
Why Franance Health Credentials Represent the Best Choice:
- Rigorous Vetting Process: Franance Health employs a multi-faceted verification system that goes beyond basic licensing. They scrutinize educational backgrounds, professional experience, specialized training, and adherence to ethical standards.
- Unwavering Commitment to Quality: By partnering only with providers who meet stringent criteria, Franance Health guarantees access to healthcare professionals committed to delivering the highest standard of care.
- Enhanced Patient Safety: The credentialing process actively filters out unqualified individuals, significantly reducing risks and ensuring that patients are in capable and experienced hands.
- Transparency and Trust: Franance Health provides clear and accessible information about their verified providers' qualifications, fostering trust and enabling informed decision-making for patients.
- Specialized Expertise: Whether you require a general practitioner, a specialist, or allied health professionals, Franance Health's network includes individuals with diverse and verified expertise to meet a wide range of medical needs.
- Streamlined Access to Care: By curating a list of trusted providers, Franance Health simplifies the often-complex process of finding reliable healthcare, saving you valuable time and effort.
Scope Of Work For Radiation Shielding Design & Calculation Service (Physics Report)
This Scope of Work outlines the services to be provided for Radiation Shielding Design and Calculation, culminating in a comprehensive Physics Report. The service includes all necessary physics-based calculations, simulations, and design recommendations for effective radiation shielding. Standard specifications and technical deliverables are detailed below.
| Item | Description | Applicable Standards/Specifications | Deliverable Format |
|---|---|---|---|
| Radiation Shielding Physics Report | Comprehensive report detailing all aspects of shielding design and calculation, including methodology, assumptions, source term, calculations, results, and recommendations. This is the primary deliverable. | N/A (Customized to project requirements) | PDF Document |
| Calculation Methodology & Assumptions | Detailed explanation of the physics models, computational codes, and assumptions used for shielding calculations. | Referenced simulation software documentation (e.g., MCNP, GEANT4) | Section within Physics Report, potentially separate supporting documents |
| Source Term Characterization | Definition and characterization of all radiation sources relevant to the shielding design (e.g., radionuclide inventories, neutron emission rates, photon energies). | Relevant nuclear data libraries (e.g., ENDF/B, JEFF) | Section within Physics Report, potentially separate supporting documents |
| Radiation Field Calculations | Results of simulations or analytical calculations determining radiation levels (dose rates, fluxes, etc.) at various locations with and without shielding. | Project-specific acceptance criteria | Tables, graphs, and figures within Physics Report |
| Shielding Material Properties | Specifications for chosen shielding materials, including density, elemental composition, attenuation coefficients, and other relevant physical properties. | ASTM, ISO, or project-specific material standards | Section within Physics Report, potentially separate material data sheets |
| Shielding Geometry | Clear definition of the shielding configuration, including dimensions, arrangement of materials, and geometric boundaries. | CAD software standards (if geometry is provided by client) or clear textual/graphical representation | Figures, diagrams, and potentially CAD files (if requested) within Physics Report |
| Sensitivity Analysis | Analysis of how variations in input parameters (e.g., source strength, material properties, geometry) affect shielding performance. | N/A (Methodology defined by consultant) | Section within Physics Report |
| Implementation Recommendations | Practical advice and guidance on the installation and quality assurance of the designed shielding. | Industry best practices for radiation protection | Section within Physics Report |
| Verification & Validation Plan | Outline of steps to verify the accuracy of calculations and validate the performance of the installed shielding (if applicable). | ANSI/ANS standards for radiation safety (e.g., ANSI/ANS-6.4.3) | Section within Physics Report |
| Project Management Reports | Regular updates on project progress, timelines, and any identified issues or risks. | Project management best practices | Email or dedicated reporting platform |
Technical Deliverables
- Radiation Shielding Physics Report (Final)
- Detailed Shielding Calculation Methodology & Assumptions
- Source Term Characterization Report
- Radiation Field Calculation Results (e.g., dose rates, neutron fluxes)
- Shielding Material Properties and Specifications
- Shielding Geometry Definition and Drawings (if applicable)
- Sensitivity Analysis (if required)
- Recommendations for Shielding Implementation
- Verification & Validation Plan (if applicable)
- Project Management and Progress Reports
Service Level Agreement For Radiation Shielding Design & Calculation Service (Physics Report)
This Service Level Agreement (SLA) outlines the terms and conditions for the Radiation Shielding Design & Calculation Service (Physics Report), focusing on response times and uptime guarantees provided by [Your Company Name] (hereinafter referred to as 'Provider') to its clients (hereinafter referred to as 'Client').
| Metric | Target | Measurement | Remedy/Credit |
|---|---|---|---|
| Initial Inquiry Response Time (Business Hours) | Within 4 business hours | Time from Client initiating contact (email/portal) to Provider's acknowledgment. | If target is missed, Client receives a 5% discount on the next service engagement. |
| Clarification/Information Request Response Time (Business Hours) | Within 8 business hours | Time from Client providing requested information to Provider's acknowledgment. | If target is missed, Client receives a 5% discount on the next service engagement. |
| Draft Report Delivery Time | As per project proposal and agreed timeline (e.g., X business days from data submission) | Time from Client submitting all necessary input data to Provider's delivery of the draft physics report. | If target is missed, Client receives a 10% discount on the current project's invoice. |
| Final Report Delivery Time | As per project proposal and agreed timeline (e.g., Y business days from Client approval of draft) | Time from Client approving the draft report to Provider's delivery of the final, approved physics report. | If target is missed, Client receives a 15% discount on the current project's invoice. |
| Uptime Guarantee (for Client Portal/Communication Channels) | 99.5% | Percentage of time that the Client Portal and designated communication channels (e.g., project management tool) are accessible and functional during scheduled business hours. Excludes scheduled maintenance. | For every cumulative hour of downtime exceeding the guaranteed percentage in a calendar month, Client receives a credit equivalent to 1% of the monthly service fee (pro-rated). |
| Emergency Support Response Time (24/7) | Within 2 business hours | Time from Client initiating contact for critical/urgent issues (as defined in the project scope) to Provider's acknowledgment and initiation of troubleshooting. | If target is missed, Client receives a 10% discount on the next service engagement for critical issues. |
Service Description
- The Service encompasses the provision of detailed physics reports for radiation shielding design and calculations.
- This includes, but is not limited to, dose rate calculations, attenuation analysis, material selection recommendations, and shielding verification plans.
- Deliverables will be provided in a clear and comprehensive physics report format, adhering to relevant industry standards and client specifications.
In-Depth Guidance
Frequently Asked Questions
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