Know Your Vegetable! Home Garden Success Depends on Well Thought Out Home Garden Plans

Home garden plans are essential to having a successful vegetable home garden. Planning means being able to answer the following questions:

1. Where am I going to plant my garden? Will you be gardening in your yard, vegetable container gardening or hydroponic gardening, to name a few?

2. What are the best vegetables to grow in my garden given my climate, size of garden, type of soil, and what I like to eat?

3. Where do plants best thrive in a garden?… shade or sun, close together or far apart?

4. Is there a best type of seed? How long does that seed take to germinate? Growing season length?

5. How do I care for my home vegetable garden? How much fertilizer and water does it need? How do I keep bugs and rodents out of my garden?

6. Do different plants require different care? How do I dress the vegetables once I have harvested them? How long are they good for after harvest?

If you are a beginning gardener, having well thought out home garden plans will make or break your results. Nothing is more frustrating than putting hours of time and many dollars of resources into your garden only to see that it has failed. You must, at least to some degree, answer the noted questions. You will make mistakes and some plants will not turn out as expected.

To minimize that, however, there are many resources out there to gather information on home garden plans for your home vegetable garden. Of course there is the internet, however, I would also strongly recommend a good garden reference manual or your local greenhouse owner. Everyone I have ever worked with has always graciously assisted me with my garden project. They do this so that they can win you over as a long-term customer. It sure has worked with me as I have a couple greenhouses in my area that I frequent often.

So again, to ensure you have an optimal vegetable, home garden plans that are well thought out and executed is a must! I hope this gives you a good jumping off point with your new garden. Good luck with your home garden plans and may your vegetable home garden be bountiful!

MoS2 Low Friction Coatings – Not Just For The Aviation Industry Anymore

MoS2 low friction coatings (also known as molybdenum disulfide, also spelled, disulphide) are regarded the most widely used form of solid film lubrication today. What makes them unique (with the other dichalcogenides) is the weak atomic interaction (Van der Waals) of the sulfide anions, while covalent bonds within molybdenum are strong.Thus, lubrication relies on slippage along the sulfur atoms. All the properties of the lamella structure are intrinsic. No external form of moisture is required. In fact, best performance from MoS2 low friction coatings is attained in the absence of water vapor, which are prone to surface adsorption. This makes them ideal under vacuum.There are a number of methods to apply MoS2 low friction coatings, including a simple rubbing or burnishing, air-spraying resin-bonded or inorganically bonded coatings, and more recently by sputtering through physical vapor deposition (PVD).Thickness will vary, depending on form of MoS2 low friction coatings, but typically ranges between 5 to 15 micrometer. Sputtering techniques can produce thin films of 0.2 micrometer. While plasma sprays will result in higher builds, beginning at 0.003 inch or more.Friction coefficient less than 0.05 is attainable, but will also vary with humidity and sliding conditions. Tests show friction decreases with increasing vacuum strength. Friction also lowers with higher load, faster surface speed, or both. In fact, MoS2 low friction coatings are superior to both graphite and tungsten disulfide (WS2). Friction with MoS2 low friction coatings is independent of particle size, though the larger particles can carry more load.Dry lubrication for MoS2 low friction coatings remains superior at higher temperatures, with oxidation rates remaining relatively low at temperatures up to 600 degrees Fahrenheit. And in dry, oxygen-free atmospheres, lubricating performance, even with oxidation products, is stable to 1300 degrees Fahrenheit.Higher air flow can affect oxidation kinetic rates in atmosphere. Molybdenum oxide products (MoO3) and sulfur dioxide. Since MoO3 alone offers dry lubrication, based on its relative softness, molybdenum disulfide coating are ideal in higher temperature environments. At higher temperatures, though, they are better suited under vacuum. In atmosphere, they are prone to water adsorption from air based on their hygroscopic properties.As with the other dry film lubricants, while differences may prove negligible, you will have to determine which is better for you: longer wear life or better performance, using MoS2 low friction coatings. Generally, friction will be slightly higher by coating both surfaces, rather than coating one surface only. But wear life will increase coating both surfaces.Friction can be good in so many areas of life. Without it we could not easily stop and start our motion, or change direction. But in moving machinery, friction causes considerable loss of energy, poorer performance, not to mention limiting wear life.As with many non-lubricated systems, the static coefficient of friction is higher than the dynamic coefficient of friction. The resultant motion is often referred to as ‘stick-slip’. Basically, the two surfaces stick together until the elastic energy within the system has accumulated to some threshold, where a sudden, forward slip takes place. Under magnification, it’s apparent the union of two surfaces is often limited to intimate contact only at the tips of a few of the asperities (small scale, surface irregularities). At these point areas, pressures relating to contact may be near the hardness of the softer material. Thus, plastic deformation occurs on some localized scale. This is known as cold welding. Where bonded junctions are formed between two materials.For lubrication to occur, these bonds, this adhesive component of friction, must be broken. And this is where products like MoS2 low friction coatings serve well.So, where are these products used today? Consider aerospace, automotive, marine and electronic, for starters. There, you’ll find MoS2 low friction coatings, again and again.

Ontario’s Wine Industry – Harvesting the Benefits of SR&ED

How wonderful it is to proudly browse the wide selection of Ontario’s wines at your local LCBO. Knowing that your own winery is both a driving force in the Canadian economy and an innovator of the local wine industry can certainly be rewarding, both personally and professionally.From challenges to opportunitiesQuite often the goal of a grape grower to produce a consistent, high-quality brand of wine is met with many unexpected challenges. With the erratic situation of the Canadian economy following the recession, wine makers of Ontario struggle to produce at the risk of manufacturing downsizing. In addition to economic factors, the wine industry of Ontario is faced with a higher stringency under Vintners Quality Alliance (VQA) regulations, and the push from Wine Council of Ontario (WCO) to raise industry standards by participating in programs like Sustainable Winemaking Ontario.For the individual winery of Ontario, keeping up with competition means continuously utilizing new technologies and finding innovative ways to provide a premium product, despite such challenges. Simply put, this boils down to having the necessary financial opportunities become available to maintain a healthy competition. Are these opportunities available to the wine industry of Ontario? Yes – SR&ED is the answer!The SR&ED programThe SR&ED program (Scientific Research & Experimental Development) aims to reimburse companies for their experimental development expenses. For over 20 years and with about $4 billion a year in funding, it remains the largest single source of federal funding for R&D in Canada. The goal is to make creativity and innovation affordable in the Canadian business environment and foster future development.The program is highly relevant to businesses who are naturally involved in shop-floor
experimentation. R&D projects that qualify under the program include (1) work undertaken for the purpose of achieving technological advancement and/or (2) creating new, or improving existing materials, devices, products or processes. The actual refund amount depends on proper identification and qualification of eligible expenditures.Wineries in Ontario serve as ideal candidates for such funding. Typical SR&ED eligible activities that apply to the wine industry include:Developing new wines
Altering soil chemistry
Handling and harvesting technology
Improved bottling techniques
Altering practice as result of the weather
Many more…
Wineries and growers may be regularly overcoming such obstacles in daily operation. Your innovative solutions to these problems may very well qualify you for some SR&ED funding. The program supports any attempts to improve your business operations, even if they do not prove successful.Which costs qualify?Working on new ideas takes time, wastes material and requires equipment modification. The SR&ED program allows retrieving these expenses:68% of wages and salaries of personnel directly involved in R&D
41% of sub-contractor expenses
22% of capital expenditures
The refund has no strings attached – as a winery owner you are free to spend it anyway you like – buy new equipment, attempt new projects, or give everyone a big bonus – the decision is yours!How we can help?Submitting a SR&ED claim is a fairly complex and time consuming process. It involves properly identifying eligible activities within your business, associating the appropriate costs to these projects and completing a highly technical report to support the claim.Using the extensive experience of a professional consultancy like ourselves, business owners have the opportunity to review their potential for qualification, and complete the application process in a few hours, and with no up-front costs. We get paid when you do!Discovering that your business is eligible for SR&ED funding makes a world of difference. The goal is to help your winery take potential technical risks that will eventually lead to significant improvements in your industry.