Sustainable Biomaterials
Head: C-H. M. Huang
Professors: B.H. Bond, U.K. Buehlmann, R.J. Bush, K.J. Edgar, C.E. Frazier, A.L. Hammett, C-H. M. Huang, D.E. Kline, J.R. Loferski, H.J. Quesada, R.L. Smith, P.M. Winistorfer, and A. Zink-Sharp
Associate Professors: D.P. Hindman, L. Horvath, Y. Kim and M. Roman
Assistant Professors: J.D. Russell
Adjunct Senior Research Scientist: P. A. Araman
Professor Emeritus: F.M. Lamb, W.G. Glasser, M.S. White
Web: www.sbio.vt.edu
Packaging Systems and Design
Learn how sustainable packaging is used to eliminate waste and pollution in the environment, how packaging design enhances products, and how smart materials are used in food and drug packaging to enhance safety and quality.
Sustainable Biomaterials
Apply the STEM disciplines to natural renewable materials to help us develop our sustainable future. Learn how biomaterials can be made and utilized in ways to produce better performing materials with less environmental impact. Study options include sustainable residential structures, creating sustainable society, biomaterials science, and forest products business.
Degree Requirements
The graduation requirements in effect during the academic year of admission to Virginia Tech apply. Requirements for graduation are listed on checksheets. Students must satisfactorily complete all requirements and university obligations for degree completion. The university reserves the right to modify requirements in a degree program.
Please visit the University Registrar's website at https://www.registrar.vt.edu/graduation-multi-brief/checksheets.html for degree requirements.
Sustainable Biomaterials Minor and Packaging Science Minor
Minors are offered for students interested in obtaining knowledge and skills in the wood science field to supplement their primary major field of study.
Undergraduate Course Descriptions (SBIO)
1004: EXPLORATIONS IN SUSTAINABLE BIOMATERIALS Topics and related career paths in Sustainable Biomaterials. Resources promoting academic success, personal improvement, and professional development. Problem solving, inquiry, teamwork, and oral, written, and visual communication applied to sustainable biomaterials issues. (1H,1C)
1014: INTRODUCTION TO PACKAGING SYSTEMS AND DESIGN Information and skills necessary to succeed in the Packaging Systems and Design program; use of the library resources and use of intellectual property of others; laboratory reports, presentation skills, safe laboratory practices, and resume and packaging career portfolio. (1H,1C)
1114: A SUSTAINABLE FUTURE THROUGH CIRCULAR ECONOMY Concepts, principles, and frameworks to understand sustainable production and consumption systems. Critical exploration of the six R s : Reduce, Reuse, Repair, Refurbish, Remanufacture, and Recycle. Circular economy models for technical and bio-based materials to enable sustainable design. Special emphasis on systems-thinking methods for evaluating alternative/circular system design for sustainable biomaterials. Elements of sustainable biomaterial products and business models that optimize material efficiency and value-retention. Current initiatives by industry and governments to implement sustainable production and consumption practices and policies around the world. (3H,3C)
1234: INTRODUCTION TO WOOD, DESIGN AND CRAFTMANSHIP Wood as a material. Introduction to laboratory techniques, wood processing, machining and woodworking, moisture interactions, species characteristics, microscopic techniques, measuring material properties, characteristics of forest products industry, career opportunities. (2H,3L,3C)
1984: SPECIAL STUDY Variable credit course.
2004: COMPUTER-AIDED DESIGN IN PACKAGING Principles of Computer-Aided Design (CAD) in the packaging industry. Basics of virtual primary package development, computer-aided design of the secondary package, computer-aided optimization of truck loading and palletization. Development of a comprehensive packaging system in a virtual environment. (3H,3C)
2104: PRINCIPLES OF PACKAGING Packaging systems, materials, and forms and their relationship with the requirements of global societies for the distribution and storage of industrial and consumer products; packaging laws and regulations. (3H,3C)
2114: PACKAGING LAW AND REGULATION Study of the legal and regulatory issues affecting primary, secondary , and tertiary packaging and packaging systems. Labeling, food and drug, intellectual property, shipping, structural, and environmental laws and regulations affecting packaging design and use. Pre: 2104. (3H,3C)
2124: STRUCTURE AND PROPERTIES OF SUSTAINABLE BIOMATERIALS Macroscopic and microscopic structure and chemical composition of wood and other biomaterials such as grasses, bamboo, and bagasse. Relationships between anatomical structure and physical/mechanical behavior. Microscopic identification of commercially important biomaterials. Preparation and analysis of microscope slides and scanning electron micrographs. Pre: BIOL 1005, CHEM 1035. (2H,3L,3C)
2214: DESIGN FUNDAMENTALS FOR PACKAGING Introduction to the foundation of packaging design, visual elements, design principles, and Adobe Illustrator. Basic studio workshop with focuses on packaging design processes, two-dimensional graphic work, and package design projects. Aesthetic judgment and critical thinking skills through practice in packaging design projects and critique. Design Lab/Studio. Course FEE $46. Pre: 2104. (2H,2L,3C)
2314: BUILDING INFORMATION MODELING FOR WOOD-BASED CONSTRUCTION Building information modeling (BIM), computer-aided design (CAD) and the role of BIM and CAD in wood construction. Use of BIM and CAD to improve construction efficiency. Study of REVIT use including building layout, family editor, detailing, schedules, material lists and 3-dimensional rendering. Discussion of construction documentation and plan reading. BIM methods and tools in the design and detailing of residential light-frame, mass timber, and historic buildings. (3H,3C)
2504: CIRCULAR ECONOMY ANALYTICS FOR SUSTAINABLE SYSTEMS Concepts, principles, and framework to understand systems level interactions in linear (cradle-to-grave) and circular (cradle-to-cradle) processes. Problem solving application and practice utilizing computational tools and data analytics. Special emphasis on quantifying and evaluating life-cycle circularity of common products and processes used to meet societys demand. Evaluation of case study results towards the planning of more circular business models in a complex global economy. Risks and ethical issues associated with decision making and policy based on results from computational models. Pre: MATH 1025 or MATH 1225 or MATH 1524 or MATH 1535 or MATH 1525. (2H,3L,3C)
2614: INTRODUCTION TO FOREST PRODUCTS MARKETING Study of marketing systems and methods used by North American primary and secondary forest product industries. Emphasis on wood product industries. Marketing of hardwood lumber, softwood lumber, panels, composites, furniture, and paper products. Role of North American industries and markets in world trade of forest products. (3H,3C)
2784 (FREC 2784): GLOBAL FOREST SUSTAINABILITY A socio-economic approach to examining the management and use of the worlds forests, enhance knowledge of global forest resources and products, and understand the roles and relationships of key stakeholders. (3H,3C)
2964: FIELD STUDY Pass/Fail only. Variable credit course.
2974: INDEPENDENT STUDY Variable credit course.
2984: SPECIAL STUDY Variable credit course.
2994: UNDERGRADUATE RESEARCH Variable credit course.
3004: SUSTAINABLE NATURE-BASED ENTERPRISES Planning for green and sustainability values for profit and non-profit enterprises that produce and market nature-based products and services (e.g., wood products, wildlife, fish, ecotourism). Understanding current green business environments to foster natural resource-based enterprises. (3H,3C)
3005,3006: SUSTAINABLE PACKAGING DESIGN AND INNOVATION 3005: Principles of sustainability, laboratory packaging evaluation including testing procedures, simulation of physical hazards. Professional communications including laboratory reports and oral presentations. Development of comprehensive packaging evaluation plans. Evaluation of existing packaging systems and improving them from the sustainability perspective. 3006: Application of project management to the packing development process. Apply lean management principles to packing design process. Design of sustainable packaging solutions through industry sponsored projects. (2H,3L,3C)
3104: PACKAGING DESIGN APPLICATIONS Design structure of packaging with Adobe Photoshop, Adobe Illustrator, and Esko. Lab course adapting typography, illustration, and photography to create packaging prototypes. Structural integrity and display ethics through practice in packaging design projects and research. Identify the product target market. Design/Lab Studio. Course FEE $78. Pre: 2214. (2H,2L,3C)
3114: BIODETERIORATION, BIOCONVERSION AND BIOENERGY Conversion of sustainable biomaterials as part of natural biological, and non-biological, processes and the use of these processes in bioenergy production and carbon cycling. Biological mechanisms and adapted processes for biomaterials conversions including fungal/bacterial/ insect and marine decomposition relative to carbon and nutrient cycling and the production of feedstocks for bioenergy and biomaterials. Deterioration and protection of biomaterials as well as bioconversion for fuels and feedstocks. Protection/preservation of biomaterials including wood, bamboo, rattan, leather, and historic objects is also included. Pre: CHEM 1035, BIOL 1115. (3H,3C)
3124: PAPER AND PAPERBOARD PACKAGING Paper and paperboard properties and types. Types and performance of flexible paper packaging, sacks, and wraps. Folding carton design, properties of corrugated fiberboard. Corrugated fiberboard container design and performance. Packaging regulations and hazards of the distribution environment. Printing, labeling and automatic identification methods. Pre: 2104. Co: 2004. (2H,3L,3C)
3224: PACKAGING DISTRIBUTION SYSTEMS Unit load and parcel supply chains. Principles of operation and design of warehouse distribution and fulfillment centers. Principles of operation and design of shipping and distribution systems. The relation between packaging design, pallet design, and unit load design and the operation of industrial consumer goods supply chain. Pre: 2104. (3H,3C)
3244: PACKAGING MACHINERY AND PRODUCTION SYSTEMS Selection of machinery systems to form, fill and seal packaging operations for multiple package and material categories; analysis of the effect of packaging design and material selection on production efficiency and manufacturing capacity; statistical process control for packaging systems; packaging line design. Pre: 2104. (3H,3C)
3264: PACKAGING SUPPLY CHAIN Supply chain strategies for packaging. Principles for planning and control of inventory, emphasis on dependent demand and material requirement planning for packaging materials in consumer-packaged goods companies; analysis and management of packaging components procurement, and supply contracts in a globalized environment; financial aspects of logistics and supply chain operations; logistics for returnable packaging containers. Pre: 3224. (3H,3C)
3284: PACKAGING POLYMERS AND PRODUCTION Introduction to synthetic, natural and sustainable polymer science and engineering as applied to packaging systems. Morphology, rheology, physical and thermal properties, processing methods, and polymerization of traditional, natural and sustainable packaging polymers. Detailed study of relationships among materials, processing, and structural properties through hands-on experience. Both traditional and advanced industrial mass production technology, and global regulation and environmental impact of packaging articles. Pre: 2104. (2H,2L,3C)
3314: MECHANICS OF SUSTAINABLE BIOMATERIALS AND PACKAGING Mechanical properties of sustainable biomaterials and packaging materials including concepts of stress, strain, Poissons ratio, orthotropic properties, tension, compression, bending and effects of moisture on mechanical properties. Current issues related to sustainable biomaterial and packaging material use in industry. Standard methods of evaluating important mechanical properties of solid wood, composites, packaging, paperboard and fiber. Pre: PHYS 2205 or PHYS 2305. (3H,3L,4C)
3324: GREEN BUILDING SYSTEMS Definition of green buildings with specific focus on wood frame single family housing and appropriate green building systems. Site specification, resource efficiency, water efficiency, indoor environmental quality, homeowner education and global impact. Certification in various green building systems. (3H,3C)
3334: SURVEY OF NON-TIMBER FOREST PRODUCTS In depth study of non-timber forest products of NTFP throughout Appalachia with overseas example - their heritage, uses and markets, economic development opportunities, and sustainable management. Emphasis will be placed on utilization and management issues. Students will gain skills necessary to assess and plan for NTFP business opportunities. (3H,3C)
3434: CHEMISTRY AND CONVERSION OF SUSTAINABLE BIOMATERIALS Chemical composition of plant matter. Chemistry and biosynthesis of plant components. Cellulosic biofuel technology. Industrial conversion of woody biomass: pulping, bleaching, papermaking. Industrial conversion of cellulose by chemical processes. Pre: CHEM 1036. (3H,3C)
3444: SUSTAINABLE BIOMATERIALS & BIOENERGY Introduction to the structure and properties of natural composites, biobased polymers, and naturally-derived chemicals for materials and energy applications. Chemistry of biomass deconstruction. Industrial applications of biobased polymers, monomers, and chemicals. Pre: (CHEM 2514 or CHEM 2535), (CHEM 3615 or CHEM 4615). (3H,3C)
3445-3446: ENTREPRENEURIAL WOOD DESIGN AND INNOVATION Concept to market business project applied to design and innovation of wood products. Product design based on consumer need and sustainable use of natural resources. Writing a business plan including, product innovation, resource sustainability, marketing, strategic planning, production planning, technology utilized, packaging and distribution to final market. (2H,3L,3C)
3454: SOCIETY, SUSTAINABILITY BIOMATERIALS AND ENERGY Sustainability, raw materials and energy needs of society. Use of sustainable biomaterials to meet societys needs and reduce impact on the environment. Methods to evaluate and certify the sustainability of materials and consumer goods. Carbon sequestration and the use biomass for energy. (3H,3C)
3464: SUSTAINABLE OPERATIONS MANAGEMENT Sustainable business management models of renewable-based materials organizations. Application of strategy deployment tools to sustainable bio business strategies. Analysis of financial statements of bio businesses using ratio analysis. Implementation of models and tools to analyze production systems based on cycle time, throughput, and inventory (factory dynamics). Simulation and optimization of manufacturing systems using probability function models. Statistical quality control charts for discrete and continuous variables. Pre: STAT 2004 or STAT 3615. (3H,3C)
3524: MANUFACTURE OF SUSTAINABLE BIOMATERIALS FOR STRUCTURES Principles of manufacturing sustainable biomaterials into primary and secondary products used in construction of buildings, houses and other structures; product demand and environmental impact; raw material quality and volume estimation; industry standards; manufacturing processes; and quality control methods. Pre: 2124. (2H,3L,3C)
3554: SUSTAINABLE BIOMATERIALS ENTERPRISES Processes and techniques in manufacturing sustainable biomaterial-based products. Contemporary manufacturing, industrial engineering, and business practices in enterprises. Problem solving, operations management, and effective leadership in discrete products manufacturing and sustainable biomaterials production practices. Pre: 1234. (3H,3C)
3954: STUDY ABROAD Variable credit course.
3964: FIELD STUDY Variable credit course.
3984: SPECIAL STUDY Variable credit course.
3994: UNDERGRADUATE RESEARCH Variable credit course.
4004: SENIOR SEMINAR IN FOREST PRODUCTS BUSINESS Integrated application of principles of management, manufacturing, and marketing as applied to wood-based and related industries. Case analysis, business planning and strategic decision making. Senior standing required. Pre: 3634. (2H,2C)
4024: PACKAGING DESIGN FOR GLOBAL DISTRIBUTION Understanding, identification, and measurement of hazards in physical distribution including sea, air, and various land transportation, storage methods, and use of sanitation methods. Knowledge, analysis, and selection of sustainable protective packaging materials. Design and analysis of packaging protection against such hazards as shock, vibration compression, and climate. Laboratory testing of shock, vibration and compression, and performance testing of packaging and components. Packaging design in global context. Pre: 3224. (2H,3L,3C)
4054: PACKAGING SYSTEMS DESIGN PRACTICUM Integrated application of principles of packaging design and manufacturing. Design briefs, package development process, structural requirements, manufacturing and distribution plans, target markets and positioning. Senior Standing required. (2H,3L,3C)
4154: COMPUTER APPLICATION SYSTEMS IN FOREST PRODUCTS Computer control systems with applications in the forest products industry. Survey of systems for gathering, inputting, conditioning, and managing information. Hardware and software systems for computer control applications. Use of information technologies to integrate control subject to raw material, quality, and market fluctuations. Forest products case studies in data acquisition, data analysis, database management production planning, process control, inventory control, and systems specification. Junior standing is required. (2H,3L,3C)
4214: FOOD AND HEALTH CARE PACKAGING Designed for both current and advanced food and health care packaging. Covering the types of materials and their properties, fabrication, functions, distribution and packaging life cycle for food and health care packaging systems and design. Reviewing recent trends in food and health care packaging systems; sustainable food packaging, medical device packaging, aseptic packaging, package/product interactions, smart active packaging, handling of packages, and modified atmospheric packaging. Exploration to global food and health care packaging standards and compliance, safety issues, and environmental considerations. Pre: 3124, 3284. (2H,2L,3C)
4224: WOOD PALLET, CONTAINER, AND UNIT LOAD DESIGN Wood pallet design and performance. The design of wood containers and crates. Design and performance of unit loads. Design and performance of unit load equipment, i.e., conveyors, racking systems, automatic guided vehicles, fork trucks. Principles of unit load design. Mechanical interactions between pallets, packaging, and unit load handling equipment. Unit load stabilization techniques, i.e., strapping, stretch wrapping. International phytosanitation regulations of solid wood packaging; principles of dunnage, blocking and bracing. Pre: 4024, 3224. (2H,3L,3C)
4314 (CEM 4314) (CNST 4314): DESIGN OF WOOD STRUCTURES Analysis and design of wood structures comprised of solid wood and/or composite wood products. Evaluation of mechanical properties of wood materials. Design of individual tension, compression and bending members, and wood-steel dowel connections. Lateral loading design of diaphragms and shearwalls. Pre: 3314 or CEE 3404. (3H,3C)
4384: BIOREFINERY SCIENCE Biomass utilization as an industrial resource. Biorefinery processes such as cultivation, harvesting, separation, and biomass processing into industrial products compared to the petroleum refinery. Routes to the production of bioenergy, biochemicals, and biofuels. Resource availability and energy consumption, environmental implications of a biorefinery system, public policy influence on development of biorefineries. Pre: 3434. (3H,3C)
4424 (CHEM 4424): POLYSACCHARIDE CHEMISTRY Structure, properties, and applications of natural polysaccharides. Natural sources and methods of isolation. Synthetic chemistry and important polysaccharide derivatives. Relation of structure and properties to performance in critical applications including pharmaceuticals, coatings, plastics, rheology control, and films. Conversion by chemical and biochemical methods of polysaccharide biomass to fuels and materials. Pre: CHEM 2536 or CHEM 2566. (3H,3C)
4444: PLANT POLYMERS & BIOCOMPOSITES Evolution of vascular plants and plant polymers in the context of materials science and biocomposites. Anatomical, physical, and mechanical properties of wood, bamboo, and hemp. Polymer science, plant polymer science, surface chemistry, and adhesion science for biocomposites made from wood, bamboo, and hemp. Contemporary adhesives and resins for biocomposites manufacture. Pre: CHEM 2514 or CHEM 2536. (3H,3C)
4514: WOOD PRODUCTS INDUSTRY STUDIES Field studies of the processing systems and product manufacturing procedures of various wood products industries. Pre: 3114. (3L,1C)
4624: WOOD INDUSTRY PRODUCTION OPERATIONS MANAGEMENT Study of the operation of wood products organizations. Problems facing these organizations and current management practices used to address these problems. Investigation of the design and implementation of wood industry management improvement efforts. How organizations and groups design, implement, and evaluate improvements efforts. The application of techniques to production planning, financial management, inventory management, quality, human resources management, technology, performance measures, and assessment. Includes case studies of wood products manufacturing companies. Pre: 3544. (2H,3L,3C)
4634: FOREST PRODUCTS BUSINESS MANAGEMENT This course will describe the allocation of resources within a forest products business. Students will determine how to allocate natural, human and financial resources to maximize profitability within the organization. How allocation decisions affect all stakeholders of the organization will be demonstrated and this allocations impact upon strategic planning will be discussed. The course will also show the impact of the external business environment on management decisions. Pre: 1234, 2614, 3114. (3H,3C)
4714: PERFORMANCE OF SUSTAINABLE BIOMATERIALS IN BUILDINGS The use of manufactured sustainable biomaterials in the construction of buildings; interactions of building code requirements, sustainable biomaterials and bio-composite materials as components within houses; durability, deterioration, controlling moisture infiltration, preservatives and proper selection of materials, historic wood buildings, effectiveness and efficiency of sustainable biomaterial building systems; serviceability issues in buildings with sustainable biomaterials. Pre: 2124. (3H,3C)
4964: FIELD STUDY Pass/Fail only. Variable credit course.
4974: INDEPENDENT STUDY Variable credit course.
4984: SPECIAL STUDY Variable credit course.
4994: UNDERGRADUATE RESEARCH Variable credit course.