20 years ago we bought a Mytag dishwasher ( back when Maytag actually had engineers). We loved it and considered taking it with us 10 years later when we sold our house. Instead we regrettably bought a new Maytag dishwasher ( this appears to be when they fired the engineers and did outsourcing I suspect).
Anyway it had something go wrong at least once a year. To top things off, Maytag did not have help web pages with technical manuals, so I had to go to 3rd party appliance parts sellers to troubleshoot the dishwasher.
I believe Maytag is a brand name now - nothing more. I suspect the owners of Maytag now would be comfortable selling oven mitts or salsa instead of dishwashers.
Investigate comapnies to see if they manufacture and design in house or are a brand name with a product acquistion and distribution network behind them with no design engineers in house.
Our Bosch dishwasher is great! So quiet that you don't know that its running. My only mistake was buying it from Sears and paying for their "professional installation."
Beware, the installation is subcontracted to bands of idiots, who bent the bottom of the frame carrying it into the house. The bent frame prevented fully opening the door, a fact that I discovered after the fled out home.
Sears replaced the damaged machine, I had the Sears employees leave the new machine in the center of the kitchen, and I installed the replacement. But Sears had no recorse, thank the lord for American Express.
It was interesting to see the Sears employees handling the original dishwasher with the bent frame, it was thrown into the back of the box truck and on it's way to the Sears scratch & dent center. It sustaned more damage being thrown into the truck than the damage that prompted me to reject the machine.
Why not go back to washing your dishes by hand? I'm continually astonished by people who don't seem to know that it's even possible to do that. And doubly astonished by families with children older than six that don't let THEM do the dishes as a way to teach responsibility, teamwork and a host of other virtues.
Some of my family's best conversations took place around the sink (once we finished argueing about who was going to wash and who dry).
Are you certain the flex circuit was copper? Was the problem a short or an open? It seems you imply an open.
The end you were looking at may be plated with something that looks like copper and the circuit may be silver.
Many flex or membrane control boards are made by the additive process of screen printing by silver OR copper polymer thick film as the primary conductive element. Copper flex boards are typically made by a subtractive process – more expensive - and usually reserved for circuits that need the current carrying or low resistance. Controls traces don’t really need to be super low resistance so I’m surprised. Why would they pay the extra for a flex circuit if the issue was cost?
Ion migration is the most common way these boards fail and they usually fail as a short before they open.
This will happen even when water is room temperature.
Many computer keyboards are made this way that’s why coffee spilled is so damaging.
The water provides a medium for ions to line up and form traces that create shorts especially with DC signal traces in control circuits.
I had the same membrane switch problem on a new Samsung Dryer. It never ran and took more than 2 weeks to get the part in and have it fixed. I think poor quality is universal. I think bean counters don't care about quality. The original problem with the dishwasher could be solved with a liberal coat of silicon dielectric grease after the connector is seated. It's available at auto supply stores.
Where did the product life cycle and stress testing go? Do engineering groups still do this with new products? That has been part of the design and verification process in my company for decades. Many of the flaws mentioned here would have easily been discovered and could have been resolved.
Ever since copper wiring products became pricey during the Viet Nam conflict, and aluminum wire became the substitute, there has been a product distributed by IDEAL Industries, called NOALOX. It is a corrosion inhibitor grease to be used when connecting aluminum cable to terminals, regardless of wire gauge. It is available in many places .... electrical supply outlets, LOWES, HOME DEPOT, etc. from small tubes to large containers.
IF the terminations of the flex circuit are solderable, maybe a low-wattage iron and small small diameter flux (rosin) core (electronic grade) solder would eliminate the oxidation problem. However, one MUST be very careful, and it would be imperative to immediately wipe off any excess solder buildup on the individual points. This would be a solution ONLY for those adept w/ soldering techniques.
The keyboard issue shows how corporate america does not care about quality. I had the same problem. Solution, the traces 'grow' whiskers between the conductors. Under a microscope just cut the whiskers with and exacto, place some nail polish on it and it works like a charm.
It is a manufacturing defect but whirlpool will not admit it.
I bought a new whirlpool dryer, it took the service man 7 tries to fix it. 2 blower wheels, 2 motors later it finnaly worked.
The whirlpool washing machine broke 3 days after it was delivered! Oil ran out of the gear box all over the floor, I bought the 3 year service plan in month 11. The service man came back 2 times a year to fix something on it. Now there is no low agitation. time to buy a korean made washer.
If you don't order a pile of spare keypads while you can, you'll be stuck like me with an otherwise perfectly good appliace but no keypad avaiable for it. In my case, a GE Microwave oven that's headed for the landfill. I really did try to buy American. Next time, that's not going to be at the top of my list - I just want quality.
Truchard will be presented the award at the 2014 Golden Mousetrap Awards ceremony during the co-located events Pacific Design & Manufacturing, MD&M West, WestPack, PLASTEC West, Electronics West, ATX West, and AeroCon.
In a bid to boost the viability of lithium-based electric car batteries, a team at Lawrence Berkeley National Laboratory has developed a chemistry that could possibly double an EV’s driving range while cutting its battery cost in half.
For industrial control applications, or even a simple assembly line, that machine can go almost 24/7 without a break. But what happens when the task is a little more complex? That’s where the “smart” machine would come in. The smart machine is one that has some simple (or complex in some cases) processing capability to be able to adapt to changing conditions. Such machines are suited for a host of applications, including automotive, aerospace, defense, medical, computers and electronics, telecommunications, consumer goods, and so on. This discussion will examine what’s possible with smart machines, and what tradeoffs need to be made to implement such a solution.