Diagram based plastic buckle diagram completed

In this worksheet, you will calculate the amount of carbon dioxide, or "carbon footprint," emitted by just one stage of a plastic water bottle's life cycle: transportation. You will also perform some other calculations related to bottled water consumption in the United States. Use the answers you calculate to inform your report's discussion of the environmental impact of using bottled water.

Perform the following calculations to identify roughly how much carbon dioxide is emitted from transporting the product. Warsaw Springs bottled water is shipped away from the plant by truck, which will travel an average speed of 65 miles per hour.

How many hours will it take the truck to drive from the bottling plant to the BigMart store located miles away in Manchester, New Hampshire?

diagram based plastic buckle diagram completed

Convert your answer above to minutes. Round to the whole minute. The carbon footprint from transporting the water depends in part on the number of products that can be transported at one time. The water bottles are shipped upright in shrink-wrapped cases, 24 to a case. Case Dimensions Figure 1: Case of water. Note: Diagram not to scale. Using the numbers in the table above, what is the area of the base of one case?

What is its perimeter? Its volume?

Mechanical properties of materials: Stress and strain

Note: Area units can be expressed as square inches in2 ; volume units can be expressed as cubic inches in3. The cases are then placed upright in a truck, with as many as will fit in the truck lined up and stacked.

The diagram below shows one case loaded in the truck. Every case is loaded in the same orientation as the one in the diagram. Trailer Interior Dimensions Figure 2: Tractor-trailer with trailer section. Note that the length of the case is aligned with the length of the truck. Length 47 ft. Width 8. Height 9 ft. What is the length of the longest case array that could fit on the truck with the long side of each case set along the length of the truck, as in the diagram?

The width? The height? Provide your answer in feet, rounded to one decimal place. How much leftover space is there in the truck? Hint: Consider the measurements of cases, not bottle contents. Assuming that the full truck emits Based on your answers to the questions above, how many kilograms of carbon dioxide are emitted per bottle of water on this trip? What is that in pounds? Show your answers to six decimal places.Whatever your preferred term, the fishbone diagram is a great tool for delving into a problem when we need to determine the root cause, and you are surrounded by the opinions of those around you.

This could be a quality issue, not meeting metrics or troubleshooting the introduction of a new process or product line. Use butchers paper or a whiteboard to sketch out out the fishbones template. Defining an effect takes a little practice. Make sure it is brief and succinct. Spend a few minutes reflecting on your effect with the team; does everyone agree that the statement defines the problem as fully as possible?

With your team, we want to add the bones to this diagram, brainstorming all of the possible influencing factors. Each idea needs to be put into a category or branch. In manufacturing, it is accepted that there are 6 main branches that need investigation.

As the team suggests possible causes, determine which heading that idea belongs under, jotting it down clearly.

CRV's Little Secret - Jim L.

Continue until the team runs out of ideas. Here we change modes and needs a little time for our brains to shift gears. If the top few causes are not clear, determine what further information is needed.

diagram based plastic buckle diagram completed

While using a fishbone diagram does take time to develop, it will help you and your team to determine the real causes and allow you to improve your process and implement lasting change.

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diagram based plastic buckle diagram completed

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DPReview Digital Photography. East Dane Designer Men's Fashion.SmartDraw makes creating cause and effect diagrams easy by automating much of the design. All you have to do is start with a template and adding categories and causes is as easy as clicking a button. Just watch the video. SmartDraw has several templates and examples to start from including the 4 S's of the service industry, the 6 M's of manufacturing and the 8 P's for administration. The first step in any cause and effect diagram is, identifying the problem.

If you started with a cause and effect template, you'll already see a box marked "The Problem" at the end of a fishbone-like structure. Click on the box and type in the specific problem you're trying to find causes for. SmartDraw's basic template lists four main causes. You can specify your own by clicking on any of the boxes, selecting the text already there and replacing it with your own.

To add more causes to your diagram, just click Add Cause in the SmartPanel to the left of your drawing area and SmartDraw will add another perfectly formatted branch. Click Add Detail to add more details to your branch. Continue to add however many causes and details you think you'll need. If you want to get rid of a detail or cause just click Delete Detail.

To delete an entire branch, click on Delete Cause and your branch will disappear while the diagram reformats itself automatically. It's easy to move a detail around if you determine that it belongs under a different cause. Just click on it and move it to a new position. As you approach the new part of the visual, connection points and dashed lines appear, showing the positions where you can place the detail.

Release the detail when you're ready to snap it to the desired connection point. The other details and causes will adjust to accommodate the newly placed detail. Besides being able to easily adjust the size of symbols by using the black control handles, like you can in all SmartDraw visuals, you can also manually adjust the size and spacing of the spine and branches of your cause and effect diagram. Click on a branch and you'll see black squares appear where the details are connected to it.

You can drag these black squares to adjust the spacing of your selected branch and the spacing of the other the branches will adjust accordingly to maintain an even look. If you select the spine of your cause and effect diagram, you can adjust the spacing between all the branches. On the spine, you'll also have an additional control a white diamond or circle that can adjust the space between all the causes attached to the spine.

To change the branch style of your cause and effect diagram, choose from one of the Branch Style options in the SmartPanel and the diagram will reformat automatically. You can further customize your cause and effect diagram choosing a different theme from the Themes menu on the Home ribbon. When your diagram is complete you can print it out or export to various file formats to share with others.

Make a cause and effect or fishbone diagram in just a few easy steps: Start by naming the main problem or event. This usually goes at the head of the "fish" in your diagram.Every component in a linear motion system experiences some form of loading due to applied forces or motion.

Strain is the deformation or displacement of material that results from an applied stress. The most common way to analyze the relationship between stress and strain for a particular material is with a stress-strain diagram. For many materials, the proportional limit and the elastic limit are the same or nearly equal. In the stress-strain curve shown here, the proportional limit and the elastic limit are assumed to be the same. As long as the applied stresses are below the proportional limit, stress-strain relationships are the same whether the material is under tension or compression.

Offset yield strength is the stress that will cause a specified amount of permanent strain typically 0. It is found by drawing a line that crosses the X strain axis at 0. The point where this line intersects the stress-strain curve is the offset yield point. This point denotes the maximum stress that can be applied to a material in tension before failure occurs. Note that in the discussion above, the original cross-sectional area and length before any deformation had taken place were used to calculate stress and strain, respectively.

You must be logged in to post a comment. When is static load capacity important? Leave a Reply Cancel reply You must be logged in to post a comment.Root cause analysis is a structured process which is useful in determining the underlying causes behind the certain problem.

In other words, we can say that root cause analysis is the process of identifying underlying factors which can be termed as causes of an adverse event.

diagram based plastic buckle diagram completed

These are contributing factors or causes of a system which can help in determining the root causes and develop actions to sustain corrections. A cause and effect diagram, also called fishbone diagram, is part of root cause analysis. Fishbone diagram for root cause analysis is playing a significant role in the process of solving a problem. Brainstorming helps in identifying the causes and store ideas into useful categories when using the fishbone during a problem solving exercise. Fishbone diagram for root cause analysis is a method of visual representation of causes and effects of an issue.

Brainstorming for possible causes of a problem while using a fishbone diagram, is considered as one of the more structured approaches compared to other ways of brainstorming available.

Fishbone diagram is a simple and quick way of understanding the causes in the pursuit of corrective actions.

Fishbone diagram is one way of capturing different ideas and stimulating the brainstorming of a team on root causes. Fishbone diagram through a visual display of information help in determining the potential causes for a particular problem and its effects.

It is suitable for root analysis or brainstorming in group settings. Fishbone diagram is also useful when quantitative data is available for the analysis. Fishbone diagram has ancillary benefits, in root cause analysis it helps in finding a robust solution by providing an opportunity for thorough exploration of the issue. This article will help you take advantage of and use a fishbone diagram for root cause analysis by providing some specific guidelines.

The team which is using fishbone diagram in root cause analysis is required to carry out some steps which are as follows:. Agree on a specific problem statement and write the problem as effect at the mouth of the fish.

Using Fishbone Diagrams to Solve Problems

Write the problem accurately and clearly. At the first stage, you are required to define the problem as the solution. Second steps deals with causes.

Here at this point, you should have to agree on broad categories of causes of the problem. At step 3, you are required to brainstorm all the possible causes of the problem by answering the question why something happens? Write these causes under different predefined categories of causes. Here you are required to create branches of causes like seen in the picture below.

At this stage again ask why something happens and create sub cause branches. At this stage, you would be able to create the understanding of a deeper level cause. Understand different causes and help organize them under related cause categories. By developing deep understanding of the cause, you would be able to understand, identify and address root causes to prevent future problems. Fishbone diagram provides several benefits for process improvement.

How to effectively use fishbone diagram for root cause analysis

In root causes analysis fishbone diagram is straightforward and easy. Fishbone diagram involves the whole team in problem resolution and educates the whole team. Fishbone diagram organizes the discussion of the group to stay focused on current issues. It promotes system thinking through visual linkages and prioritizes further analysis and corrective actions.

Example of fishbone diagram for root cause analysis:. In order to use fishbone diagram effectively, you are required to input as much information from the people involved in the analysis as possible. Proper use of information will make the diagram accurate effective and useful.I used the official decal sold by Rooster Teeth as the basis of the design, but the sizing came from watching the first episode of the show.

The calculations were straightforward once I was able to determine the width of the belt in the show and the ratio between that and the bullet belt I purchased for the costume.

I constructed the first version of the buckle out of craft foam purchased from JoAnn fabrics. I had seen videos and tutorials of realistic-looking armor made from the material but had never worked with it myself. I started by scaling the image of the official sticker down to the size that I wanted the final buckle to be. I proceeded to use the uncut copy to cut out the overall shape of the buckle from 1 sheet of 2mm black craft foam and 4mm red craft foam using an Exacto knife and scissors.

I used superglue to join those two pieces together. This gave me the final thickness I wanted for the buckle. I then cut out the petal pieces from a piece of 1mm black craft foam that came with an adhesive backing.

Using the adhesive on the sheet made it easier to position the smaller pieces on the main pieces versus using glue. I was able to easily adjust them without leaving any sort of glue residue on the body of the buckle. As you can see, the buckle is very curvy which made cutting out the pieces difficult. The final product was much rougher than I wanted. I tried to correct the rough cuts by using a Dremel tool to smooth them down.

This worked well for the lower part of the buckle but not as well for the narrow tips and the petal pieces. Even with the smallest bit, I had to be very careful when smoothing the narrow tips at the top of the buckle.

Once the smoothing was completed, I painted the entire buckle with silver spray paint we had left over from a previous project. I created a DIY paint booth using a pizza box and three drywall screws. The dry wall screws were screwed through the bottom of the box in a small triangle. This triangle created a platform for the buckle to rest on while it was drying. This allowed both the top and the bottom to dry at the same rate — preventing the foam from warping.

I think I did 3 coats of paint with several hours of drying in between each coat foam drinks up paint.


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