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Protecting Children from Leaded Solder
In August, 2015, I wrote this policy for keeping children safe from lead poisoning in the electronics lab at The Crucible in Oakland, CA. It is a description of the problem, a well researched discussion, and a solution.
Here is the guide nicely formatted: Protecting Children from Leaded Solder at the Crucible
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Protecting Children from Leaded Solder at The Crucible
Policy Statement:
Due to the potential of lead intoxication, it is the policy of The Crucible to not allow persons under age 18 to use solder that contains lead for electrical connections. Lead-free solder performs acceptably with far less possibility of toxicity.
Background:
This document is directed at multiple audiences:
– to the organization so they understand the additional expenses of maintaining a lead-free environment.
– to faculty so they understand the reasons for the shift away from an easier-to-work-with material.
– to parents so they understand how we are acting to protect children.
Solder is used with soldering irons in the Kinetics and Electronics department to make electrical connections. Solder composed of tin and lead is long established as a well performing product, but the dangers of working with lead are also well known. Even small amounts of ingested lead can cause irreversible neurological damage, especially in children. Large international efforts have been implemented to reduce human exposure to lead. Notably, leaded paint and gasoline were banned in the U.S. in the 1970’s, the European Union banned lead in all electronics in the 2000’s, and California’s Electronic Waste Recycling Act of 2003 bans lead in some electronics.
Leaded solder remains legal and commonly used for electronics in the United States. It is generally understood that when leaded solder is used with proper precautions, it does not constitute a danger to the user. However, younger students may have trouble following these precautions and may put themselves at risk.
Important dangers for children using lead solder are:
– The difficulty of enforcing strict hand washing policies in a classroom environment with children
– The relatively high incidence of pica (habitual eating of non-foods) among children and the difficulty of recognizing this practice in the classroom
– The possibility of careless handling of solder by children
– The extremely long-term toxic effects of lead poisoning
– The low dose needed to reach toxic levels
Alternatives:
Lead-free solder is slightly harder to work with but the safety concerns far outweigh the time spent learning how to use the new material. Solder that is made with 96.5% tin, 3% silver, 0.5% copper is a popular substitute for leaded solder. Here is one vendor’s product: http://www.all-spec.com/products/KWLF27500.html and another http://www.techni-tool.com/488SO7871. Solder made from 99.4% tin, 0.6% copper works almost as well as the tin-silver-copper solder and is less expensive. Other types of lead-free solder are also available.
Costs of switching:
Tin/lead solder costs about $25/lb, tin-silver-copper solder costs about $50/lb, tin-copper solder costs about $35/lb. Both lead-free solders wear out the tip of a soldering iron in 1/3 the time as with tin-lead solder. A new tip costs about $2-10.
A summer of classes typically goes through 1.5 lb of solder and 5 soldering tips. So switching to lead-free solder might cost an extra $50 in solder and $50 in tips.
Research on Leaded Solder:
“Lead poisoning has been reported in children after a single ingestion… Pica is a very well identified risk factor of lead intoxication in children.”
– Sabouraud, S et al. Lead poisoning following ingestion of pieces of lead roofing plates: pica-like behavior in an adult., 46 Clinical toxicology (Philadelphia, Pa.) 267—269 (2008). http://doi.org/10.1080/15563650701639014
In the Sabouraud et al. article above, a case study described a woman with a single 6mm bullet lodged in her body. Her blood lead level climbed to dangerous levels over a few months. This implies that if piece of lead-solder was lodged in a student’s stomach, the negative consequences could be dramatic.
(paraphrased) A 45 year-old woman had lead shot pellet lodged in her stomach, probably from eating a hunted animal. Her blood lead level climbed to 550 μg/L before she excreted the pellet. There are several similar medical case studies described in this article.
– “Intoxication from an Accidentally Ingested Lead Shot Retained in the Gastrointestinal Tract” Environ Health Perspect. 2005 Apr; 113(4): 491—493. Per Gustavsson and Lars Gerhardsson. http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1278491/#!po=25.4717
“one study showed that about 10% of children older than 12 years engage in pica”
– http://www.academia.edu/202338/Pica_An_Update
“Pica is observed most commonly in areas of low socioeconomic status and is more common in women (especially pregnant women) and in children. To our knowledge, the prevalence of pica is not known. Numerous complications of the disorder have been described, including iron-deficiency anemia, lead poisoning, and helminthic infestations.”
– “Pica: Common but Commonly Missed” http://www.medscape.com/viewarticle/405804_1
The CDC recognizes that “[n]o safe blood lead level in children has been identified” and that a blood lead level above 5 micrograms per deciliter ( µg/dL) should be treated.
– http://www.cdc.gov/nceh/lead/
“…the average blood lead levels from 4 to 10 years had the strongest association with the adult full-scale IQ. For each 1 µg/dL average blood lead levels, the adult full-scale IQ deficit was about two IQ points.”
“Lead in the body comprises 2% in the blood (t1/2 35 days) and 95% in bone and dentine (t1/2 20—30 years). Blood lead may remain elevated for years after cessation from long exposure, due to redistribution from bone.”
– Gordon, J. N., Taylor, a., & Bennett, P. N. (2002). Lead poisoning: Case studies. British Journal of Clinical Pharmacology, 53(5), 451—458. http://doi.org/10.1046/j.1365-2125.2002.01580.x
“Early symptoms of lead neurotoxicity in both adults and children include irritability, headache, decreased attention span, memory loss, and low-level cognitive impairment… As childhood exposure increases, behavioral symptoms of impulsiveness, inability to follow sequences or directions, decreased play activity, lowered IQ. and poor attentiveness are seen at PbBs of 10-35 µg/dL. … Recent studies evaluating the relationship between blood lead levels and neurobehavioral performance have shown evidence of effect at levels below 10 µg/dL -the current level considered excessive for pediatric exposure… [In one study] a significant inverse relationship was observed between blood lead levels and reading and math test scores and comprehension testing. The correlation was noted at levels as low as 2.5 µg/dL.”
– Patrick, L. (2006). Lead Toxicity, A Review of the Literature. Part I: Exposure, Evaluation, and Treatment. Alternative Medicine Review, 11(1), 2-22. http://europepmc.org/abstract/med/16597190
A cursory review demonstrates that ingestion (accidental or otherwise) of even a single grain-of-rice sized piece of lead solder could be dangerous for a child. A grain of rice weighs about 0.01 grams. A 0.01 gram piece of 60/40 Tin/Lead solder has about 0.004 grams of lead. That could raise the blood lead level of a 50 kg child by 8 µg/dL, higher than the current proposed actionable level of 5 µg/dL. Accidental ingestion of piece of solder the size of a grain of rice is extremely plausible when a child eats their lunch in the same clothes they solder in.
Concerning the Dangers of Solder Flux:
Another potential danger to soldering are the fumes from the flux. People exposed to flux fumes for multiple years in the workplace have developed asthma-like symptoms. The danger to students appears to be very small owing to the short duration of exposure. Additionally, research on this topic continues to be inconclusive, even for people that have worked for many years with solder. No particular flux has been singled out as more toxic than another. As more research is found on this subject, the policy will be reviewed.
Research on Solder Flux:
“Research on the respiratory effect of exposure to solder fumes in electronics workers has been conducted since the 1970s, but has yielded inconsistent results. The aim of this meta-analysis was to clarify the potential association… Soldering may be a risk factor for wheeze, but may not be associated with a clinically significant impairment of lung function among electronics workers.”
– Mendy, A, et al (2011). Work-related respiratory symptoms and lung function among solderers in the electronics industry: a meta-analysis, http://doi.org/10.1007/s12199-011-0236-8
“A cross-sectional study was conducted in four medium-sized electronics firms in which control measures to capture solder flux fume were absent or visibly ineffective… The odds ratios for ‘all wheeze’, shortness of breath, and work-related eye, nose and chest symptoms were all significantly greater (raised about 4-5 fold) in women who soldered > or = 37 h/wk when compared with those soldering < or = 20 h/wk.”
– Palmer, K. (1997). Respiratory disease in workers exposed to colophony solder flux fumes: continuing health concerns. http://www.ncbi.nlm.nih.gov/pubmed/9604483
Tips on Using Lead-free Solder in Place of Leaded Solder
Be sure to leave a small blob of solder on the tip when putting it down. Leaded solder only needs the tiniest bit on the tip to keep going, lead-free needs a larger blob, lest it oxidize fully.
Lead-free solder needs a higher temperature than leaded, typically 700-750F instead of 600-650F. A temperature-controlled iron works better than a cheaper current-controlled iron put to a higher setting. The higher setting will contribute to the tip wearing out faster, especially so with a current-controlled iron. Common tip failures include the tip becoming uncleanable after fully oxidizing, and the tip gradually being melted away.
Leaded flux-core solder adheres to dirty metal better than lead-free solder. Cleaning your piece with 98% isopropyl alcohol or other chemical wipes can help with adhesion.
Using finer gauge wire for lead-free may help. 0.031″ is popular for thru-hole and 0.023″ for surface mount.
Using deionized water in the cleaning sponge may help.
Lead-free solder wears out tips about 3 times faster than leaded solder. Be sure to have spare tips on hand.
Here is a guide to lead-free soldering from a major solder manufacturer: http://www.kester.com/kester-content/uploads/2013/06/Lead-free-Handsoldering.Final_.4.19.06.pdf
The New UAV Fireworks
See a wonderful new drone firework artform!
With all this talk about drones being scary, here is a glimpse at the future of art!
Skip to 43 seconds
http://www.huffingtonpost.com/entry/drones-beethoven-intel-world-record_5693ae9de4b0a2b6fb70b843
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Why Sauron Is Secretly The Good Guy In ‘Lord Of The Rings’
Why Sauron Is Secretly The Good Guy In ‘Lord Of The Rings’
I’m a big fan of Cracked After Hours videos. At first I thought this would be their standard “pretty funny” but they really knocked it out of the park with this one. Come be a fan with me:
Steep Streets In San Francisco
Steep Streets in San Francisco
I came across a blog post mentioning the steepest streets in San Francisco. When Charlotte and I lived there, there was one favorite steep street that I loved to drive down… I’d pull up to the corner of 22nd and Vicksburg in my Sebring, put down the top (drizzle or shine!) and look at the magnificent view. Then I’d slowly pull the car up the edge of the cliff; you couldn’t see any ground in front of the car any more. We’d pause there, on the precipice and I’d ask, “Ready? Set… Go!” I’d give it just a bit too much gas and we’d lurch over the edge! For a second you weren’t sure if we were flying or falling. It was wonderful!
I looked at the list and can say that the street I found was one of two contenders for “best drivable hill” in the city.
Filbert between Hyde and Leavenworth ties our favorite street in steepness (31.5 degrees) and has a pretty darn good view. See it here!
Ripley and Peralta has the same steepness but the view is meh.
Baden above Mangels is steeper but it’s just a driveway. Disqualified!
Nevada above Chapman is another driveway with no view.
Prentiss between Chapman and Powhattan is another driveway!
Here is our view at 22nd and Vicksburg.
Just over the edge.
Here are the two blog posts I saw with all the hill info.
And just so it doesn’t get lost, here are the contenders:
The Steepest Streets In San Francisco, For Real
1. Prentiss between Chapman and Powhattan (37% grade)
2. Nevada above Chapman (36% grade)
3. Baden above Mangels (34% grade) *
4. Ripley between Peralta and Alabama (31.5% grade)
5. Filbert between Hyde and Leavenworth (31.5% grade)
6. 22nd between Vicksburg and Church (31.5% grade)
7. 24th between Grand View and Fountain (30% grade)
8. Kearny above Broadway (30% grade) **
9. Holyoke between Karen and Woolsey (30% grade)
10. 25th above Grand View (30% grade)
11. Jones between Union and Filbert (29% grade)
12. Dwight above Goettingen (29% grade)
13. Folsom between Chapman and Powhattan (29% grade)
Source: Stephen Von Worley.
Notes: Ties are broken by the length of maximum slope.
* Crude, single lane pseudo-street, ** Grade unconfirmed.
ZAP L-Series Remote Control Electrical Outlet Switch Manual
Megan got me a remote control switch set for Xmas. It works great.
It’s the Etekcity Wireless Remote Control Electrical Outlet Switch for Household Appliances (Learning Code, 5Rx-2Tx)
Instead of trying to hold onto the manual pamphlet, I put it here:
Etekcity Essentials
ZAP L-Series
Uses 1 12V / LR23A battery in the remote control
maximum load of 10 amps
transmit frequency 433.92MHz
Programming the outlets
– Note: the outlets are pre-programmed for immediate use, but the configuration can be customized to meet your needs.
To program a remote control transmitter and outlet switch receiver:
– Plug the outlet switch into a socket and turn it on.
– Press and hold the programming button on the right side of the outlet until the LED indicator begins to flash.
– Release the programming button and then press the desired On or Off button on the remote.
– The pairing is successful when the LED indicator stops flashing.
Resetting an outlet (cancel all pairings)
To cancel all pairings so that no remote control will control it:
– Remove the outlet from the power socket.
– Press and hold the programming button.
– Plug the outlet back into the power socket while continuing to hold the programming button.
– Hold the programming button for approximately 5 seconds until the LED indicator begins to flash.
– When the LED flashes rapidly several times and stops, the outlet has been reset.
Annoyingly Incomplete Research Breeds Annoyingly Alarmist Message
Annoyingly Incomplete Research Breeds Annoyingly Alarmist Message
I saw this article at ExpandedConciousness.com
“Why You Should Take Your Shoes Off Before Entering Your Home, Backed By Science”
It opens with:
While it may be commonplace in most Asian countries, the cultural norm of taking your shoes off before entering your home has yet to catch on in Europe and America. In Asian cultures it’s easily understandable as to why people remove their shoes before coming into a home as their meals are typically eaten on mats on the floor, and they sleep on rolled out futons at night.
A new study has researchers suggesting that maybe we might want to be more aware of what exactly we’re bringing into our homes via our shoes.
Bacteria in the home — Research conducted at the University of Houston found that 40% of shoes were carrying around the Clostridium difficile, or “C.diff”, bacterium. Infections caused by C.diff are highly resistant to antibiotics, which can lead to difficult and lengthy recovery times for anyone who becomes infected. C.diff is also able to survive in most areas of the household, including toilets, tops and surfaces, and wherever floor dust is found. Ready to take off your shoes yet?
Kinda scary, right? I’m always going to take my shoes off at home so me and my baby don’t get sick!
The trouble is, the article intentionally sensationalized and misrepresented the results of the research.
I read the research paper. The data and conclusions of the research did not match what the article implied. To paraphrase, the research said, “C.diff can get you sick. 1/3 of all our samples in homes had that bug on them. 40% of shoe bottoms had it, 30% of bathroom surfaces, 30% of floor dust. Wow, that’s a lot… we think… maybe.” And that’s where they left it.
So my takeaway is: don’t lick the bottoms of my shoes, the floor, or my toilet. Thanks for the tip, guys.
If they had compared rates of contamination in the different areas of the house, they might have come to some great conclusions. For example, maybe people that have shoe bugs are more likely to have bugs elsewhere in the house (IE, maybe people track the bugs in on their shoes) . Or maybe not. They’ve got the raw data, why didn’t they crunch the numbers?
They didn’t have a control group. They said that floor dust was contaminated, was tabletop dust contaminated too? Maybe if they had tested silverware, frozen pizzas, and kitchen tables they would have had the same 30% contamination rates. But we’ll never know because they did bad science. I know all about bad science, I did some just last month.
Frickin’ grad students and their research projects.
Frickin’ sensationalist websites and their fear mongering.
You can find the abstract (a short summary) of the research here. You can find the full paper via a library that has access to scholarly journals. I used my San Jose State University library access.
Workshop Weekend in Oakland! December 12 & 13
I will try to attend this. See you there?
Workshop Weekend in Oakland! December 12 & 13
Join us on December 12 & 13 to make a robot, dissect a computer, make ice cream or a chocolate mold, learn HTML and plan your website, hack your tastebuds and more. At Workshop Weekend, a flat $40 admission gets you as many workshops as you can handle!
I hope you had a wonderful Thanksgiving!
I’m writing to remind you that the deadline for early bird registration for Workshop Weekend istomorrow, November 29. Use code EARLYBIRD7715 at checkout to get a $10 discount! Don’t delay — some workshops have already sold out.
Register online by Sunday, November 29 and save $10 with code EARLYBIRD7715.Select your workshops at http://workshopweekend.net/
For families coming to Workshop Weekend together, we’re keeping our $10 discount for all parent admissions with the purchase of two or more admissions for children (under 18). Sign up on the same account and the discount will be automatically applied.
We have more than 20 workshops to choose from at this Workshop Weekend — a few old favorites are coming back alongside a number of new printmaking, food, and holiday-themed workshops — and more! Join us for:
- Vanilla Extracts
- Light Blue Bean
- LED Ornaments
- LED Light Belt
- Printmaking: Traditional
- Printmaking: Monotype
- Digital Music
- New Year’s Resolutions
- 3D Printed Cookie Cutter
- Computer Dissection
- DIY Gift Wrap
- DIY Holiday Cards
- Liquid Nitrogen Ice Cream
- Hack Your Tastebuds
…and more!
Register and select workshops online at http://workshopweekend.net/
I hope we’ll see you in December!
Cheers,
J.D., Shuai, Leah, Kevin, and the team at Workshop Weekend
How Do I Scroll in Adobe Reader?
How Do I Scroll in Adobe Reader?
99% of what anyone wants to do with Adobe Reader is to read a document. 99% of reading a document is the act of scrolling. Is there a keyboard shortcut or mouse gesture that will reliably and smoothly scroll through a document?
Adobe Reader has existed for over 15 years, how can this be a thing?