A tailored course, built for your situation
Mastering ISO 22301 for Product Managers in High-Reliability Material Systems
Build resilience into engineered materials processes with structured continuity planning
The situation this course is for
Even robust material lifecycle planning can stay invisible to executives if it’s not framed within recognized resilience frameworks. Work that reduces systemic risk often remains operational, not strategic.
Who this is for
Product Manager in engineered materials or process-intensive industries, responsible for lifecycle planning and continuity alignment
Who this is not for
This is not for compliance officers focused only on audit checklists, or for IT teams implementing BCM software. It’s for product leaders whose decisions shape operational resilience.
What you walk away with
- Produce ISO 22301-aligned continuity plans that tie directly to product lifecycle stages
- Frame material supply chain decisions within enterprise resilience reporting
- Present with confidence in cross-functional resilience reviews
- Anticipate executive escalation points in disruption scenarios
- Document continuity rationale that survives team changes and audits
The 12 modules (with all 144 chapters)
- Defining business continuity in materials science
- ISO 22301 scope and exclusions
- Mapping product lifecycle to BCMS
- Regulatory drivers in manufacturing
- Continuity vs disaster recovery
- Role of product managers in BC planning
- Executive expectations on resilience
- Industry-specific risk profiles
- Continuity maturity models
- Auditor perspective on material systems
- Cross-functional dependencies
- First steps in ISO 22301 adoption
- Identifying critical products and services
- Stakeholder mapping for BCMS
- Defining internal scope drivers
- Exclusion justifications
- Product lifecycle stage alignment
- Supplier continuity dependencies
- Documenting scope decisions
- Executive sign-off preparation
- Scope communication plan
- Boundary setting in complex orgs
- Version control for scope
- Scope audit readiness
- Risk criteria definition
- Threat identification in materials
- Vulnerability assessment methods
- Impact analysis for materials
- Likelihood calibration
- Risk register structure
- Product-specific risk scenarios
- Chain-of-custody disruptions
- Environmental compliance risks
- Risk tolerance thresholds
- Documenting risk decisions
- Risk review cadence
- BIA objectives for materials
- Defining recovery time objectives
- Financial impact modeling
- Operational impact tiers
- Customer-facing consequences
- Regulatory reporting impacts
- Data integrity requirements
- Laboratory continuity needs
- BIA interview planning
- BIA data validation
- Gap analysis from BIA
- BIA report structure
- Recovery strategy options
- Alternate sourcing plans
- Cold site vs warm site decisions
- Inventory buffer strategies
- Cross-site production shifts
- Third-party dependency planning
- Strategy cost-benefit analysis
- Technology continuity needs
- Human capital availability
- Strategy documentation
- Strategy testing frequency
- Strategy update triggers
- Incident classification levels
- Emergency response procedures
- Crisis communication protocols
- Command structure roles
- Alerting mechanisms
- Escalation paths for materials
- Containment strategies
- Legal notification requirements
- Regulator communication plan
- Media response alignment
- Incident documentation
- Post-incident review process
- Plan structure and hierarchy
- Activation criteria
- Step-by-step recovery procedures
- Resource requirements
- Vendor coordination steps
- IT system recovery integration
- Laboratory resumption steps
- Plan distribution controls
- Version control process
- Access permissions
- Offline availability
- Plan approval workflow
- Testing objectives
- Test types and frequency
- Scenario design for materials
- Stakeholder participation
- Performance metrics
- After-action reporting
- Gap closure tracking
- Executive observation roles
- Regulator expectations
- Test documentation
- Lessons learned integration
- Test plan revision
- Performance measurement
- Key indicators for materials
- Internal audit planning
- Management review agenda
- Continuity training program
- Change management integration
- Documentation control
- Regulatory update tracking
- Corrective action process
- Resource adequacy review
- Trend analysis
- Continuous improvement cycle
- New product launch integration
- Lifecycle stage triggers
- Supplier onboarding checks
- Material change notifications
- End-of-life continuity planning
- Customer transition coordination
- Technical data handover
- Regulatory closure steps
- Archive plan alignment
- BCMS handoff to operations
- Lifecycle audit integration
- Documentation retention
- Executive summary structure
- Risk reporting dashboards
- Resilience storytelling
- Board communication alignment
- Leadership escalation points
- Highlighting product contributions
- Metrics for executives
- Narrative development
- Crisis preparedness posture
- Resilience value proposition
- Annual reporting integration
- Stakeholder confidence building
- Certification roadmap
- Stage 1 audit preparation
- Evidence collection plan
- Internal audit simulation
- Gap closure tracking
- Stage 2 audit readiness
- Nonconformance response
- Corrective action documentation
- Surveillance audit prep
- Maintaining certification
- Auditor communication
- Continuous compliance
How this maps to your situation
- When launching a new material product line
- Before an external audit cycle
- After a supply chain disruption
- During enterprise resilience initiative rollout
Before vs. after
What's included with your purchase
- 12 modules with 12 chapters each (144 chapters total)
- Downloadable templates and worked examples for every module
- Hand-built implementation playbook delivered alongside course access
- 30-day money-back guarantee
Delivery and format
- Course and learning environment access provisioned within 24 hours of purchase
- Hand-built implementation playbook delivered alongside course access
Format: Text-based modules and chapters in the Art of Service learning environment, plus downloadable templates and worked examples for every chapter, plus the hand-built implementation playbook delivered alongside course access.
Time investment: Approximately 3-4 hours per module, or 40-50 hours total for full course completion.
How this compares to the alternatives
Generic BCM courses focus on IT or facilities. This course is tailored to product managers in engineered materials, with direct application to lifecycle decisions and executive visibility.
Frequently asked
Within 24 hours your account in the learning environment is provisioned and the tailored implementation playbook is delivered alongside it.