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Western Canada has large acreage of oilseed flax, but unfortunately a small percentage of total crop residue (flax straw) produced annually is being commercially used. Therefore, farmers are still burning the flax straw. Flax fiber and straw has highest strength amongst the different natural fibers, therefore, the prospect of using them as biorenewable reinforcement in recycled/ virgin polymer matrices has gained attention in recent years. Flax strawboard has a potential to replace the currently used wood and other crop like wheat/barley straw boards for different industrial application. In this research Oilseed flax straw reinforced composite boards were developed using flax shives with biopolymer binder made out of recycled/ pure thermo plastic and flax fiber. Some advantages of such materials are high strength, low density, good insulation capacity against heat and moisture transfer, and biodegradability.

This work is based on comparative study of oilseed flax fibre and glass fibre reinforced composite boards for potential application in automotive industries. The material characterizations of flax and glass fibre-composites using unsaturated polyester as matrix were evaluated. Vacuum infusion was used for fabrication of composites. Flexural, tensile, water absorption and color tests were conducted on the composite boards. The density and the moisture content of flax/glass fibre mats were also measured. Three types of composite boards, including flax, glass and flax-glass sandwich were developed and characterized.

During harvest time, producers lose valuable time due to combine breakdowns because of service problems and availability of parts. A survey was, therefore, conducted across the Province of Saskatchewan to determine problems associated with combine parts availability, combine repair and consumers opinion on combine parts, costs and quality. Out of 200 surveys 43% were returned. Saskatchewan is the major grain producer province in Canada. The survey conducted here will show trends in grain harvesting, combine ownership, parts and repairs, and dealership concerns. A total of 108 combines were reported. John Deere and CaseIH had equal percentages of the market although John Deere combines averaged 4 years newer than the CaseIH ones. Nearly 61% of the combines consisted of model years previous to 1985. Producers listed many repairs with the majority occurring on the farm and only 26% indicating any type of dealership repair.

The Dyna-Bite®* traction system, developed by the Omitrac corporation, consists of a series of retractable spades which can be placed over a conventional tractor drive tires to improve traction under varying soil conditions. An initial model of the traction system was tested in 1986 (1)**. The performance of this model was compared with a 2WD tractor equipped with single drive tires and a front wheel assist (FWA) tractor. More recently, an improved model DB3-RM was evaluated at the University of Saskatchewan. The results were compared with an equally ballasted IH 1086 2WD tractor equipped with single and dual drive wheels (2). Tests for both studies were conducted on a wide range of soil moisture conditions under a variety of drawbar pull levels. Both models of the traction system provided significant traction improvements. Initial model of the traction system performed nearly as good as FWA while the later model proved superior to both single and dual wheels.

Understanding the Relationships between plants and soil is important in the development of methods of crop production. Although physical properties of soil conducive to plant growth can be recognized by experienced observers, many of these properties have not been defined satisfactorily in mathematical or physical terms. A method of measuring penetration resistance and energy exerted by a mechanical seedling (a steel probe simulating a seedling) as it moved upward through the soil surface under different levels of surface compaction and soil moisture was examined. Mechanical seedlings with 2.06, 3.19 and 4.65 mm tip diameters were tested at soil moisture levels of 13, 17, and 20%. The penetration rate of the mechanical seedling while moving through the soil was held constant at 10 mm/min. Results showed that the emergence energy increased directly with soil surface compaction pressure, initial soil moisture content, and mechanical seedling diameters.

One of the major problem in an injection-type agricultural sprayer is measuring and controlling the flow rate of the concentrated chemicals. An electro-mechanical feedback system was designed to control the chemical concentrate flow rate in an injection-type sprayer. The system works well for a fluid with viscosity from 90 to 300 mPa.s and a flow rate from 3 to 20 mL/s (0.1 to 0.68 oz/s). A linear relationship was achieved between the flow rate and metering pump speed. The system also showed a good dynamic performance.