Deformulation

Xinbodi is an industry leader in deformulation—also known as reverse engineering. We separate, identify, and (when feasible) quantify ingredients in complex formulations to support competitive benchmarking, troubleshooting, supplier comparison, product improvement, and technical due diligence.

What Is Deformulation?

Deformulation is the analytical process of breaking down a formulated product into its individual components. Using customized extractions and specialized instrumental techniques, we identify the chemical nature of ingredients and determine their relative levels. Components may include polymers/resins, solvents, plasticizers, fillers, stabilizers, lubricants, antioxidants, flame retardants, surfactants, or active ingredients.

While it is not always practical to produce a complete “cookbook recipe,” in most cases our analysis identifies both major and minor components and provides actionable composition insight aligned with your project goals.

Deformulation is often the next step after compositional analysis, when you need a more complete understanding of a product’s formulation and the roles of its key ingredients.

Why Companies Use Reverse Engineering Results

Our clients apply deformulation results to solve real-world business and technical challenges:

Competitive product characterization and benchmarking
Product improvement and performance optimization
Batch-to-batch variation and supplier comparison
“Good” vs. “bad” sample comparison for defect reduction
Technical due diligence and IP-related legal cases (supporting evidence)

Deformulation Examples

Xinbodi scientists have successfully deformulated a wide variety of products and materials, including:

Pharmaceuticals: topicals, gels, creams, ointments, tablets
Plastics: PP, PE, PMMA, Nylon, PU, flexible/rigid PVC, copolymers & blends
Specialty products: multilayer films, high-temperature engineered materials
Coatings: paints, architectural coatings, finishes
Adhesives & sealants: PSA, hot melt, waterborne; epoxy, PU, silicone
Rubber products: NR, EPDM, TPE, Neoprene, SIS, SBS, NBR, EVA, PUR, silicone
Medical devices and related materials
Detergents & cleaners: consumer and industrial formulations
Textiles: garments, upholstery applications
Inks: printing, packaging, specialty inks
Composites: glass/carbon filled, Kevlar reinforced, engineered composites
Home, health & beauty products

Typical Deformulation Workflow

While each project is customized, deformulation often follows a structured approach:

Goal definition: what you need to learn and how results will be used
Screening & material family confirmation: rapid fingerprinting to guide the plan
Targeted extraction/fractionation: separate organics/inorganics and additive fractions
Component identification: confirm components with complementary techniques
Quantitation: estimate or quantify key components where feasible
Interpretation: link formulation differences to performance or failure modes

Typical Lead Time

Standard projects: 5–10 working days
Rush service may be available depending on scope.

Related Services

Compositional Analysis

Deformulation

Failure Analysis

Impurities Analysis

Surface Analysis

Composition & Materials ID

Materials Characterization

Key Techniques Used in Deformulation

Xinbodi’s deformulation laboratory uses multiple techniques to separate and identify components with high confidence. Typical methods include:

Method selection depends on what is known about the sample, target components, required detection limits, sample form (solid/liquid/multilayer), and whether destructive testing is allowed.

What You Will Receive

Deliverables are tailored to your goal (benchmarking, troubleshooting, improvement, or supplier evaluation). A typical report may include:

Major and minor component identification with supporting evidence
Quantitative or semi-quantitative results where feasible
Extraction strategy and test methods used
Comparison between samples (competitor vs. internal, good vs. bad, supplier A vs. B)
Conclusions and practical recommendations for next steps

Note: The achievable level of quantitation depends on formulation complexity, proprietary additives, and available reference standards. We will recommend a practical plan aligned with your objectives.

Why Choose Us for Deformulation?

Every deformulation project is executed with a structured analytical strategy and clear reporting to support technical and competitive decision-making.

Extensive experience in reverse engineering complex formulations
Proven expertise across polymers, coatings, adhesives, rubber, and pharmaceuticals
Customized extraction and separation strategies for difficult materials
Multi-technique analysis to identify both major and minor components
Practical insight into additive systems and formulation design logic
Reliable comparison of competitor, supplier, and “good vs. bad” samples
High confidentiality for proprietary formulations and IP-sensitive projects
Actionable interpretation focused on application and performance, not just data