Fact-checked by Grok 2 weeks ago

Silly Putty

Silly Putty is a classic children's toy composed primarily of polydimethylsiloxane (PDMS), a silicone polymer, crosslinked with boric acid, which gives it unique viscoelastic properties as a non-Newtonian fluid.^[1]^[2] This allows the putty to flow slowly like a liquid when left undisturbed, yet bounce up to 25% higher than rubber when rolled into a ball, stretch like taffy, mold into shapes, snap when pulled quickly, and even transfer ink from newspaper print when pressed against it.^[3]^[4] Originally developed as a potential synthetic rubber substitute during World War II, it has since become an iconic plaything known for fostering creativity, providing stress relief, and serving practical uses like adhering tools in zero gravity for Apollo 8 astronauts in 1968.^[3]^[5] The substance was accidentally invented in 1943 by engineer James Wright at General Electric's New Haven laboratory, where he mixed silicone oil with boric acid in an effort to create a cheap, versatile rubber alternative amid wartime shortages.^[3]^[4] Though unsuitable for rubber production, the resulting gooey material caught the attention of entrepreneur Peter Hodgson, who acquired the formula in 1949, trademarked the name Silly Putty, and began marketing it in 1950 as a novelty item packaged in colorful plastic eggs for $1 each.^[5]^[3] A pivotal 1950 article in The New Yorker magazine sparked massive demand, leading to 250,000 orders within three days and annual sales reaching millions of units by the mid-1950s; it was promoted through television ads on shows like The Howdy Doody Show and Captain Kangaroo.^[3]^[5] Following Hodgson's death in 1976, Binney & Smith (now Crayola LLC) acquired the brand in 1977, expanding it with new colors in 1990, a glow-in-the-dark variant in 1991, and ongoing innovations for fidget and therapeutic play.^[5]^[4] Beyond entertainment, Silly Putty's formulation—approximately 65-70% PDMS, boric acid for crosslinking, and fillers like clay and calcium carbonate for texture—demonstrates key principles of polymer chemistry, including temporary crosslinks that enable its dilatant behavior under shear stress.^[1]^[2] Inducted into the National Toy Hall of Fame in 2001, it remains a cultural staple, sold in over 23 countries with enduring popularity for its simple, egg-shaped packaging and multifunctional appeal.^[3]^[4]

Overview

Description

Silly Putty is a silicone-based toy material renowned for its unusual physical properties, behaving as a viscoelastic substance that flows like a liquid under low stress conditions but bounces elastically or shatters brittlely under high stress.^[6] This non-Newtonian fluid exhibits dilatant characteristics, where its viscosity increases with the applied force, allowing it to transition seamlessly between fluid-like and solid-like states depending on handling.^[7] The product is typically packaged in colorful plastic eggs containing approximately 13 grams of the putty, with the original variant presenting a pink hue reminiscent of an eraser.^[8] Marketed exclusively by Crayola LLC, Silly Putty remains widely available through major retailers and online platforms, with annual production exceeding 9 million units to meet ongoing demand.^[9]^[10] Its distinctive viscoelastic behavior lends itself to various recreational applications, such as molding, stretching, and bouncing for sensory play and stress relief.^[8]

Physical Properties

Silly Putty exhibits unique viscoelastic properties, behaving as both a viscous liquid and an elastic solid depending on the applied force and deformation rate. As a non-Newtonian fluid, it demonstrates shear-thickening or dilatant behavior, where its viscosity increases under rapid shear stress, making it stiffer and more solid-like during quick impacts.^[11]^[12]^[7] In bounce tests, a ball of Silly Putty dropped from a height rebounds to approximately 80% of the original drop height, showcasing its elastic recovery under dynamic loading. This rebound efficiency improves when the material is cooled, such as by refrigeration, due to enhanced elasticity at lower temperatures. For slow deformations, it flows gradually under gravity, a phenomenon known as creep, where it can form a puddle over extended periods without dripping like a true liquid.^[12] Stretch tests reveal that Silly Putty can elongate to many times its original length when pulled slowly and steadily, maintaining integrity through temporary rearrangement of its polymer chains. However, in snap tests involving rapid pulling or sharp impacts, it shatters or breaks abruptly, as the quick force exceeds the material's ability to relax, with a characteristic stress relaxation time constant of about 0.1 seconds. Its Young's modulus under rapid deformation is approximately 1.7 × 10⁶ N/m², while viscosity during slow compression is around 8 × 10⁴ Pa·s, highlighting the rate-dependent mechanical response.^[11]^[11] Exposure to environmental factors alters its consistency significantly. Silly Putty softens and flows more readily when submerged in hot water, accelerating its deformation and making removal from surfaces challenging. It hardens upon cooling and dissolves in non-polar hydrocarbon solvents such as gasoline, which disrupt its polymer structure. Tactilely, it is non-toxic, odorless, and leaves no residue on most surfaces after handling, though it can transfer ink from printed materials like newspapers when pressed against them due to its adhesive-like flow under moderate pressure.^[12]^[13]^[14]^[12]

Development and History

Invention

During World War II, the United States faced a critical shortage of natural rubber after Japan's 1942 invasion of Southeast Asia, which controlled key rubber plantations and disrupted global supplies.^[15] In response, the U.S. government, through the War Production Board, funded extensive research into synthetic rubber alternatives to support wartime needs like tires, seals, and military equipment.^[15] Public efforts, including nationwide scrap drives, collected used rubber items, but scientists urgently sought viable substitutes to meet industrial demands.^[15] In 1943, engineer James Wright, working at General Electric's laboratory in New Haven, Connecticut, under a government contract, experimented with combining silicone oil and boric acid in hopes of creating a flexible, durable synthetic rubber.^[15] Wright's formulation produced a soft, moldable substance that could bounce higher than natural rubber—up to 25 percent more resilient in drop tests—but it failed to exhibit the stretching, elasticity, or strength required for practical applications like vehicle tires or gaskets.^[16] Independently, around the same time, chemist Earl Warrick at Dow Corning developed a similar compound through comparable silicone-based experiments, leading to a long-standing dispute over primary credit for the invention.^[15]^[17] Wright patented his version in 1944, while Warrick had filed for his in 1943, but both efforts were part of the broader wartime push.^[15] Initial testing revealed the material's unusual properties: it flowed like a viscous liquid under slow pressure, shattered into pieces when struck sharply with a hammer, and resisted decay, yet it did not meet the rubber criteria for tensile strength or rebound consistency under load.^[15] Deemed unsuccessful for industrial use, Wright's samples were archived and the project shelved by 1945 as researchers pivoted to other synthetic formulas that proved more effective, such as those derived from petroleum-based polymers.^[15] The compound remained largely forgotten until its potential was rediscovered in the late 1940s.^[17]

Commercialization

In 1949, Peter Hodgson, an advertising executive from New Haven, Connecticut, recognized the potential of the silicone-based putty originally developed during World War II and acquired the rights from General Electric to market it as a novelty toy.^[18] Deeply in debt at the time, Hodgson borrowed $147 to produce an initial batch, renamed the substance "Silly Putty" to emphasize its playful qualities, and innovatively packaged one-ounce portions in colorful plastic eggs for $1 each, hiring Yale students to assist with the assembly.^[18] This packaging choice, timed around Easter 1950, helped position the product as an accessible holiday item, marking its formal introduction to the public that year.^[3] The launch began modestly, with Silly Putty debuting at local stores and the International Toy Fair in New York in early 1950, but initial sales were slow as retailers struggled to grasp its appeal.^[18] Momentum built dramatically following a feature in The New Yorker's "Talk of the Town" section on August 26, 1950, which sparked widespread curiosity and led to over 250,000 orders in just three days, transforming it into a national sensation.^[18] By the mid-1950s, annual sales had escalated, and in 1957, Hodgson launched the first television advertising campaign, including spots aired during the popular children's program Howdy Doody, further solidifying its status as a kid-oriented toy.^[5] Business growth accelerated through the 1960s, with global distribution established by 1961 and the product reaching markets in over 20 countries.^[5] Since its 1950 debut, more than 300 million eggs of Silly Putty have been sold worldwide, demonstrating enduring commercial viability.^[18] Following Hodgson's death in 1976 at age 64, his company continued operations until 1977, when Binney & Smith—the makers of Crayola crayons—acquired the exclusive manufacturing rights, integrating Silly Putty into their portfolio and sustaining its production under the Crayola brand.^[19]^[20]

Composition and Manufacturing

Chemical Composition

Silly Putty's primary component is dimethylsiloxane, a hydroxy-terminated silicone polymer that constitutes approximately 65% of the formulation by weight and serves as the base material responsible for its flexible, viscoelastic nature.^[1] This polymer is cross-linked through interaction with boric acid, which acts as a key agent in forming the reversible network that imparts the material's unique bounce and flow properties.^[1] Silica, making up about 17% of the composition, functions as a reinforcing filler to enhance thickness and structural integrity without compromising pliability.^[21] Additional ingredients include 9% Thixatrol ST, a modified castor oil derivative, which controls viscosity and ensures consistent handling characteristics. The formulation also incorporates 4% polydimethylsiloxane for added smoothness, 1% decamethylcyclopentasiloxane as a cyclic siloxane to improve fluidity, 1% glycerine as a humectant to prevent drying and maintain suppleness over time, and 1% titanium dioxide as a pigment providing the characteristic pink color.^[2] These components collectively enable the putty's distinctive behavior, where slow deformation allows viscous flow while rapid impacts result in elastic rebound. Boric acid plays a crucial role as a cross-linking agent, reacting with the silanol (Si-OH) end groups of the dimethylsiloxane chains to create temporary bonds that can break and reform, underpinning the material's dilatant properties.^[21] The overall formulation is non-toxic and complies with standards set by the Art and Creative Materials Institute, ensuring safety for recreational use.^[22] Early versions of the product exhibited minor compositional variations, but modern iterations adhere to these established ingredients for consistency and safety.^[23]

Production Process

The production of Silly Putty involves a series of industrial steps starting with the blending of raw materials to form a cross-linked silicone polymer mass. The process begins by heating polydimethylsiloxane (silicone oil) and incorporating boric acid to initiate cross-linking, creating a putty-like substance, along with additives such as silica and dry pigments for color.^[18]^[2] These ingredients, comprising approximately 70% silicone polymers by weight, are loaded into a sigma-blade mixer—a heavy-duty machine designed for viscous materials—and blended for about 30 minutes to achieve uniformity.^[2] The resulting dough-like mixture is then discharged onto a cart for further processing. Following mixing, the material is divided into larger chunks, roughly basketball-sized, and fed into a taffy-pulling machine that extrudes and cuts it into smaller portions, each about the size of a golf ball.^[2] This kneading and portioning step ensures even distribution of the cross-linked structure, enhancing the product's characteristic bounce and stretch. The portions are cooled to stabilize the mass before quality control assessments, which include measurements of weight (targeting 13.5 grams per unit), bounce height, stretch length, flow under stress, and color consistency to verify performance and safety.^[2] Batches also undergo toxicological testing by standards organizations like the Art & Creative Materials Institute to confirm non-toxicity and environmental stability.^[2] Packaging completes the process on automated lines, where the portions are inserted into plastic eggs, sealed, and mounted on blister cards for distribution.^[2] Early production in 1949-1950 relied on hand-mixing small batches and manual egg filling, often performed by temporary workers, but scaled rapidly to mechanized operations by the mid-1950s using industrial mixers and conveyor systems.^[4] Since Crayola acquired manufacturing rights in 1977, facilities have focused on enhanced safety protocols and efficiency, without altering the core formula or workflow.^[2]^[18]

Applications

Recreational Uses

Silly Putty serves primarily as a versatile children's toy, engaging users through its unique ability to be manipulated in various ways that highlight its playful and sensory qualities. Children can stretch it into long ropes, bounce it like a highly resilient ball, snap it into smaller pieces with a satisfying break, mold it into temporary shapes, and, in its early formulations, transfer ink images from newspaper comics by pressing it onto printed surfaces—a feature that was particularly popular before modern non-transferable inks became standard.^[10]^[18]^[24] In educational settings, Silly Putty demonstrates key physics concepts such as elasticity and viscoelasticity, behaving as a non-Newtonian fluid that flows slowly under gentle pressure but resists rapid forces, making it an accessible tool for STEM activities recommended for children aged 4 and older.^[25]^[26] Classrooms often use it to explore polymer properties through hands-on experiments, such as measuring bounce height or stretch length, fostering understanding of material science without complex equipment.^[25] To enhance recreational engagement, manufacturers have introduced variants like glow-in-the-dark editions that phosphoresce after exposure to light, scented options such as the Sweet & Squishy line with fruity aromas, and colored or metallic versions, all maintaining the core stretch-and-bounce mechanics while adding visual or olfactory appeal.^[27]^[28] Its non-messy, reusable nature—never drying out and easily reformed—makes Silly Putty ideal for indoor family play, contributing to its peak popularity in 1950s and 1960s households as a safe, affordable source of creative entertainment; it is non-toxic and recommended for children aged 4 and up, ensuring worry-free use.^[29]^[15]^[18]

Practical and Industrial Uses

Silly Putty has found practical applications in space exploration, particularly by NASA. During the 1968 Apollo 8 mission, astronauts utilized it to secure tools and prevent them from floating in zero gravity, leveraging its adhesive properties to maintain order in the spacecraft environment.^[3] In subsequent missions, including space shuttle operations, NASA developed variants of Silly Putty-like materials for equipment repairs, such as patching heat shield damage during extravehicular activities in 2006 and 2008, where astronauts tested high-tech putty formulations to seal and fix thermal protection systems.^[30]^[31] In medical and therapeutic contexts, Silly Putty serves as a tool for hand rehabilitation and stress relief. Occupational therapists employ it to strengthen hand muscles post-injury, with its varying resistance levels aiding in exercises that improve dexterity and grip for patients recovering from conditions like arthritis or trauma.^[14] Additionally, its malleable texture provides a sensory outlet for stress reduction, recommended by therapists to promote relaxation through repetitive kneading motions.^[32] Scientifically and industrially, Silly Putty's viscoelastic nature enables specialized uses in modeling and optics. Model builders use it as a masking compound to create irregular patterns, such as camouflage on scale models, by pressing it into surfaces before painting to protect areas without straight edges. In astronomy, it aids in polishing large telescope mirrors; technicians apply it in orbital tools to conform to curved surfaces, smoothing irregularities over short polishing cycles due to its shear-thinning behavior.^[33] Researchers at Trinity College Dublin have advanced its industrial potential by incorporating graphene into Silly Putty to form nanocomposites that function as highly sensitive pressure sensors, capable of detecting subtle strains like human pulses or impacts with gauge factors exceeding 500, far surpassing conventional sensors.^[34]^[35] Beyond these fields, Silly Putty acts as a versatile adhesive for everyday practical tasks. It temporarily secures lightweight objects, such as holding paper or small tools in place without residue, and creates seals for minor gaps in household or craft projects.^[4] In artistic applications, it transfers images from printed surfaces to other media by lifting ink or pigments, a technique adapted from its original newsprint-copying function for modern printmaking and mixed-media art.^[36]

Cultural Impact

In Popular Culture

Silly Putty's entry into popular culture began with innovative advertising that capitalized on its playful properties. In 1957, the first television commercial for the toy aired during The Howdy Doody Show, hosted by Buffalo Bob Smith, marking one of the earliest ad campaigns targeted at children and significantly boosting sales.^[5] By the 1960s, advertisements emphasized its ability to bounce, stretch, and mold, often showcasing children manipulating the putty into various shapes to highlight its versatility and fun.^[18] These campaigns, produced by Peter Hodgson, transformed Silly Putty from a niche product into a household name, with a 1950 article in The New Yorker magazine further amplifying its appeal by describing it as a "gooey, pinkish, repellent-looking commodity" that intrigued consumers.^[37] The toy has appeared in various media, often as a prop representing malleable or gooey substances. In the 2001 episode "The One with Ross and Monica's Cousin" of the TV series Friends, Monica uses Silly Putty to craft a makeshift prop for Joey's film audition, illustrating its everyday utility in comedic scenarios.^[38] It has also been referenced in literature, notably as the title of comedian George Carlin's 2001 book Napalm & Silly Putty, a collection of humorous essays that drew on the toy's absurd, stretchy nature to evoke life's contradictions.^[39] In entertainment, Silly Putty has been parodied for its gooey texture, appearing in novelty contexts like magic tricks where performers stretch and snap it to create illusions of impossible deformations.^[40] Silly Putty's cultural footprint extends to celebrity and event associations, enhancing its novelty appeal. Buffalo Bob Smith, through his role on The Howdy Doody Show, indirectly endorsed the product via the strategic placement of its commercials, aligning it with wholesome children's programming.^[5] The toy has been featured in pranks, such as imprinting fake coins or faces onto its surface to surprise others, capitalizing on its ability to capture and distort images from comics or newsprint.^[41] By the early 1960s, Silly Putty achieved global adoption, becoming popular in Europe and the Soviet Union, which influenced international toy trends toward interactive, non-toxic materials that encouraged sensory play.^[18] Its widespread export helped popularize slang for malleable or adaptable objects, with "silly putty" entering vernacular as a metaphor for something flexible yet resilient in everyday language.^[42]

Recognition and Legacy

Silly Putty's recognition as a cultural and educational icon culminated in its induction into the National Toy Hall of Fame in 2001 by The Strong National Museum of Play, where it was honored for its unique physical properties that encourage creative experimentation and demonstrate principles of physics and chemistry, such as elasticity and viscosity. This accolade highlighted its role as an accidental invention success story.^[3] The toy's enduring legacy is evident in its commercial longevity, with more than 300 million plastic eggs sold worldwide since its 1950 debut, underscoring its status as a symbol of 1950s American innovation and post-war consumerism that transformed a laboratory mishap into a staple of childhood play. In 2025, Silly Putty marked its 75th anniversary of commercialization, celebrated for its continued relevance in play and education.^[43] Efforts to accurately credit its origins have increasingly acknowledged the contributions of both Wright and Dow Corning researcher Earl L. Warrick, who independently developed similar silicone-based compounds in the 1940s, leading to historical accounts that recognize their parallel discoveries rather than attributing sole invention to one individual.^[18]^[15]^[44] In modern times, Silly Putty remains in production under Crayola, which acquired the manufacturing rights in 1977 and continues to distribute it in various colors, including glow-in-the-dark variants introduced in 1991, while benefiting from the company's broader sustainability initiatives like renewable energy use in U.S. facilities. Its influence extends to polymer toy development as one of the earliest commercial silicone-based play materials and to STEM education, where it serves as a hands-on tool for teaching non-Newtonian fluid behavior through simple experiments.^[20]^[3]^[45]

References

[1]
The Chemistry of Silly Putty - Compound Interest
Nov 10, 2015 · Silly putty contains polydimethylsiloxane (PDMS), a silicone, and boric acid. PDMS's flexible chains and boric acid's crosslinks contribute to ...
[2]
How silly putty is made - material, manufacture, making, used, steps ...
Silly Putty is made from a mixture of silicone polymers (about 70 wt%) and other chemicals, including boric acid. Powdered fillers (clay and calcium ...Missing: composition | Show results with:composition<|control11|><|separator|>
[3]
Silly Putty - The Strong National Museum of Play
Aug 20, 2021 · James Wright stumbled upon an odd concoction: a stretchy material that withstood decay and bounced 25 percent higher than rubber.Missing: composition | Show results with:composition
[4]
How Silly Putty Works - People | HowStuffWorks
One of those wrong turns was made by James Wright in the laboratory of General Electric. Wright mixed boric acid and silicone oil together in the hopes of ...Silly Putty History · The Science of Silly Putty · Homemade Silly Putty
[5]
A Short History of the Ball of Goo Called Silly Putty - ThoughtCo
May 12, 2025 · Silly Putty was accidentally invented during a search to create synthetic rubber in World War II. Peter Hodgson named the goo 'Silly Putty' and ...Missing: composition | Show results with:composition
[6]
What are the ingredients of Silly Putty? - Crayola
Silly Putty is made primarily from silicone and color pigments. Silly Putty was discovered in 1943 by James Wright and introduced to the public in 1950 by Peter ...
[7]
Silly Putty - Institute of Making
It is categorised as a non-Newtonian fluid and exhibits an unusual mix of elastic and viscous properties, for when left to its own devices, it flows and puddles ...Missing: dilatant | Show results with:dilatant
[8]
Original Silly Putty, 1 Count - Crayola
Rating 3.3 (6) · 30-day returnsIt's a playful, squishy stress relief for kids and adults! Makes the perfect stocking stuffer, birthday party favor or Easter basket filler. As always, Silly ...
[9]
How many Crayola products do you make per year?
In addition to making crayons, Crayola makes 600 million Crayola Colored Pencils, 465 million markers, 110 million sticks of chalk, 9 million Silly Putty eggs, ...
[10]
Silly Putty Stretch, Bounce, and Relieve Stress | Crayola
5.0 15 · 30-day returnsSilly Putty is the classic toy that stretches, bounces, and molds into endless fun! Great for fidget play, creativity, and stress relief, this iconic compound ...
[11]
Elastic and viscous properties of Silly Putty - AIP Publishing
Oct 1, 2012 · Silly Putty owes its fame to the fact that it is more highly elastic and has a lower viscosity than most other viscoelastic solids. Materials ...
[12]
The Chemistry and History of Silly Putty - ThoughtCo
Oct 23, 2019 · Silly Putty is a viscoelastic liquid or non-Newtonian fluid. It acts primarily as a viscous liquid, though it can have properties of an elastic solid, too.Missing: physical | Show results with:physical
[13]
[PDF] Chemical Bonding: Polarity of Slime and Silly Putty
Polar molecules such as water, vinegar, or ethanol dissolve other polar molecules. Non-polar molecules, such as oil or gasoline, dissolve other non-polar.Missing: toxic | Show results with:toxic
[14]
Silly Putty® Investigation - Science World
It is non-toxic and non-irritating to the skin. Silly Putty® was invented by James Wright, a researcher at General Electric who was working on synthetic ...
[15]
A Successful Failure - Science History Institute
Aug 3, 2015 · Neither Warrick nor Wright ever came up with an adequate rubber substitute, a feat accomplished by scientists in U.S. government labs using ...
[16]
The Silly Putty Smackdown: Wright vs Warrick - Mental Floss
Jul 1, 2011 · General Electric engineer James Wright experimented until he came up with a combination of boric acid and silicone oil that resulted in a goo 25 percent ...
[17]
Claim to fame is not a stretch - Chemical Engineering
Mar 16, 2023 · By the mid-1950s, Silly Putty was an extremely popular toy and millions of eggs have been sold with the substance.Missing: composition | Show results with:composition
[18]
Chemical & Engineering News: What's That Stuff? Silly Putty
The next year, Peter Hodgson, $12,000 in debt, borrowed another $147 for a batch, packaged 1-oz lumps in plastic eggs, chose the name, and launched Silly Putty.Missing: 1948 | Show results with:1948
[19]
Peter C. L. Hodgson, Marketer Of Silly Putty, Dies at Age 64
Aug 7, 1976 · Half‐ounce dabs of Silly Putty in plastic egg‐shaped containers are sold for $1 each throughout the United States and 22 other countries ...Missing: roast | Show results with:roast
[20]
Can you tell me the history of Silly Putty? - Crayola
It was introduced to the public in 1950 by Peter Hodgson. Crayola® acquired the exclusive manufacturing rights to Silly Putty in 1977. Although the exact ...Missing: 1948 $2000
[21]
Method of making bouncing silicone putty-like compositions
Silicone putty-like substance is made by mixing dimethyl silicone gum with a boron compound (eg, boric acid) and a reinforcing filler, and making sheet stocks ...
[22]
[PDF] Safety Data Sheet
Material Name: SILLY PUTTY®. SDS ID: BNSSS102 ... Components of this material have been checked against the Canadian WHMIS Ingredients Disclosure List and no.
[23]
Are Crayola and Silly Putty products nontoxic even if ingested or ...
Silly Putty® is made primarily from silicone and color pigments. Silicone is an oil-based product and by nature will not dry out. If Silly Putty is left out of ...
[24]
Will Silly Putty pick up newspaper comic print? - Crayola Canada
Since nontransferable ink is now used, newspaper comic print will generally not transfer onto Silly Putty as it did in the past.
[25]
Silly Putty Lesson - Ceramic and Glass Industry Foundation
Safety Precautions · Do not allow children to put Silly Putty® in their mouths or attempt to swallow it. · Silly Putty® is non-toxic but should not be ingested.
[26]
Let's Make Silly Putty - Activity - TeachEngineering
Oct 11, 2019 · For the stretch test, you will hold one end of the putty and let gravity stretch the material, measuring the length (in centimeters) the putty ...
[27]
Glow in the Dark Silly Putty Egg, Fidget Toy - Crayola
Rating 4.3 (3) · 30-day returnsKids and adults will love this Silly Putty fidget toy that glows in the dark! This Glow in the Dark Putty Toy is fun to snap, stretch, and bounce, ...
[28]
Silly Putty Sweet & Squishy Eggs, 2 Count - Crayola
30-day returnsIt's an excellent fidget toy, requiring no hand-eye coordination. The Silly Putty 2 Count Scented Eggs is a tool for imagination, creativity, and endless fun.
[29]
Crayola 4ct Silly Putty Variety Pack - Target
In stock Rating 3.6 (13) This set includes four unique specialty eggs: Superbounce (blue), Lava (orange), Superbright (yellow), and Metallic (silver). Each egg offers a distinct tactile ...
[30]
Astronauts use putty, tools to practice repairs - Chron
Jul 13, 2006 · Two Discovery astronauts tested tools and a high-tech putty developed by NASA for the repair of shuttle heat shield damage Wednesday.
[31]
Spacewalking astronauts test new repair techniques - syracuse.com
Mar 21, 2008 · Two spacewalking astronauts pulled out a caulk gun and high-tech kind of Silly Putty on Thursday night and tested a method for patching shuttle ...
[32]
Silly Putty…the retro toy has other uses, too - Oasis Institute
Athletes use it to increase their hand strength, therapists recommend it as a stress reliever, and the Apollo 8 astronauts carried it into space with them to ...Missing: NASA mission
[33]
Putting the Polish on Epic-Scale Telescope Mirrors - Space
Jan 15, 2016 · The Silly Putty is stiff over the quick period of the orbit, which smooths out small-scale irregularities in the mirror surface. Over the longer ...
[34]
Scientists use graphene and toy silly putty® to make state-of-the-art ...
Dec 9, 2016 · It showed unprecedented sensitivity as a sensor for strain and pressure, being hundreds of times more sensitive than normal sensors. The G-putty ...Missing: nanocomposites | Show results with:nanocomposites
[35]
Sensitive electromechanical sensors using viscoelastic graphene ...
Dec 9, 2016 · These nanocomposites are sensitive electromechanical sensors with gauge factors >500 that can measure pulse, blood pressure, and even the impact associated ...
[36]
[PDF] art-at-home-silly-putty.pdf - Chico State
Make silly putty with glue and starch, draw on paper, then use the putty to transfer the drawing to other paper to create prints.Missing: practical temporary seals
[37]
How Silly Putty Became the World's Most Malleable Toy - ADWEEK
Jun 1, 2015 · A revolutionary new substance was aboard that the astronauts used to fix their tools in place and keep them from floating around in zero gravity ...
[38]
"Friends" The One with Ross and Monica's Cousin (TV Episode 2001)
Rating 8.5/10 (5,472) Joey auditions for a naked role in a big movie but the role becomes more complicated than he thought it would be. Rachel and Phoebe plan Monica's wedding ...Full cast & crew · Plot · The One with Rachel's Big Kiss · Trivia
[39]
Napalm & Silly Putty: Carlin, George: 9780786864133 - Amazon.com
A collection of humorous observations and philosophical musings on various topics, including life's annoyances, the absurdity of language, and the quirks of ...
[40]
COOL MAGIC TRICK WITH SILLY PUTTY! - YouTube
Nov 15, 2016 · Magician, author and teacher Jay Sankey reveals the magic secrets to a fun magic trick with silly putty! Download 3 FREE Magic E-books!Missing: novelty | Show results with:novelty
[41]
Fun Silly Putty for Jokes and Pranks
Unleash the fun with our silly putty collection! Perfect for pranks, jokes, and hours of laughs, it's a timeless classic that everyone will enjoy!
[42]
Good Design: Silly Putty - The BYU Design Review
Jul 26, 2023 · It was originally invented as a potential replacement for rubber during WWII, when rubber was in short supply. It was created by a simple ...Missing: composition | Show results with:composition
[43]
Earl L. Warrick, 91, a Dow Corning Creator of Silly Putty
Nov 22, 2002 · Dr Earl L Warrick, one of scientists who claimed credit for creation of ubiquitous plaything Silly Putty, dies at 91; photo (M)
[44]
Crayola Sustainability and Green Initiatives
Crayola invests in 100% renewable energy from solar power for US manufacturing, enough to make over 3 billion crayons, 700 million markers, and 120 million jars ...