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FREE WHITE PAPER

Finding lead in Stanley's Quencher

Date
March 14, 2024
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Finding lead in Stanley's Quencher

Edited by
Date
March 14, 2024
[65f28f6f00]

In a remarkable story of product innovation, Stanley became, in the
words of its Global President Terence Reilly, a "110-year-old
overnight success." The company's journey from inventing the first
vacuum-sealed water bottle in 1913 to becoming a TikTok sensation
began with the launch of the Quencher tumbler in 2016. The Quencher
initially saw modest success, but a strategic shift in 2020 towards
vibrant new colors and finishes caught the eye of a new generation of
consumers. This pivot, coupled with savvy social media marketing and
influencer collaborations, caused Stanley's revenue to skyrocket from
$70 million in 2019 to $750 million in 2023.

More recently, the same social media enthusiasm that propelled
Stanley to new heights has revealed itself as a double-edged sword.
Social media influencers have discovered that lead solder is used in
the Quencher's manufacturing process, jeopardizing Stanley's
success. 

But is the lead in the Quencher actually dangerous? Our Neptune
industrial X-ray CT scanner is the perfect tool to see inside
Stanley's tumbler to understand how it's made and whether or not lead
solder truly poses a risk to consumers.

Stanley's cups have inner and outer walls made of stainless steel,
separated by a vacuum that minimizes heat transfer. The manufacturing
process for vacuum-insulated stainless steel containers starts by
forming two separate stainless steel layers for the inner and outer
walls, which are then welded together at the rim to create a sealed
unit. The cup is placed in a vacuum chamber, and air is removed
through a hole that's left in the bottom of the outer layer.

At this point, the hole through which air was evacuated must be
sealed before the cup is removed from the vacuum chamber. Lead solder
provides a reliable and cost-effective answer. During the assembly of
the inner and outer layers, a small lead pellet is placed above the
air-escape hole. After the air is pulled out of the cup, the vacuum
chamber is heated just enough to melt the lead, causing it to flow
into the air escape hole and seal it. When the vacuum chamber is
opened, a vacuum remains between the cup's walls.

In our CT scans, we can clearly see the inner and outer stainless
steel flask layers, as well as the solder point. We also see a metal
disk attached to a welded tab, which may be a component used to
position the solder and hold it in place before it's melted. Dense
materials or those made of elements with higher atomic numbers
attenuate (absorb or scatter) X-rays more. Lead is very dense and
tends to block X-rays, which is why it's used to protect people from
X-ray radiation. In Voyager, we've applied a color map to the
reconstruction that corresponds to the range of material attenuation
coefficients. Lead, the most attenuating, appears here as a solid
red. The scan shows that the lead solder is completely shielded by a
stainless steel cover just below it.

[65f2907b0d]

Stanley issued a statement saying, "Once sealed, this area is covered
with a durable stainless steel layer, making it inaccessible to
consumers. Rest assured that no lead is present on the surface of any
Stanley product that comes into contact with the consumer nor the
contents of the product. In the rare occurrence the base cap of a
product comes off due to ordinary use and exposes this seal, it is
eligible for our Lifetime Warranty." 

Leaded solder, despite its known health risks, remains widely used in
various industries, including electronics, due to its superior
workability and lower melting point compared to unleaded
alternatives. The Stanley revelation has sparked a debate on the
difficult trade-offs manufacturers face between continuing with a
well-established but potentially harmful material or investing in the
development of safer--albeit more expensive and technically
challenging--alternatives.

In response to the controversy, other reusable water bottle companies
have been highlighting their lead-free manufacturing processes.
Brands like Owala, Hydro Flask, and Klean Kanteen have successfully
eliminated lead from their products, opting for alternative materials
such as noncrystalline silica beads or proprietary sealants. These
companies demonstrate that while the transition to lead-free
manufacturing is complex and costly, it is feasible and aligns with
growing consumer demand for environmentally friendly and safe
products.

[65f3415d6e]

As consumers become more discerning about the products they buy, the
pressure on companies to not compromise on safety or sustainability
will only increase. Perhaps just as important as continued innovation
is educating consumers on the relative risks associated with
materials and manufacturing processes. Proactively demystifying the
product's lifecycle and design choices could mean the difference
between soaring success and a viral backlash.

 
 

Finding lead in Stanley's Quencher

Edited by
Date
March 14, 2024
[65f28f6f00]

In a remarkable story of product innovation, Stanley became, in the
words of its Global President Terence Reilly, a "110-year-old
overnight success." The company's journey from inventing the first
vacuum-sealed water bottle in 1913 to becoming a TikTok sensation
began with the launch of the Quencher tumbler in 2016. The Quencher
initially saw modest success, but a strategic shift in 2020 towards
vibrant new colors and finishes caught the eye of a new generation of
consumers. This pivot, coupled with savvy social media marketing and
influencer collaborations, caused Stanley's revenue to skyrocket from
$70 million in 2019 to $750 million in 2023.

More recently, the same social media enthusiasm that propelled
Stanley to new heights has revealed itself as a double-edged sword.
Social media influencers have discovered that lead solder is used in
the Quencher's manufacturing process, jeopardizing Stanley's
success. 

But is the lead in the Quencher actually dangerous? Our Neptune
industrial X-ray CT scanner is the perfect tool to see inside
Stanley's tumbler to understand how it's made and whether or not lead
solder truly poses a risk to consumers.

Stanley's cups have inner and outer walls made of stainless steel,
separated by a vacuum that minimizes heat transfer. The manufacturing
process for vacuum-insulated stainless steel containers starts by
forming two separate stainless steel layers for the inner and outer
walls, which are then welded together at the rim to create a sealed
unit. The cup is placed in a vacuum chamber, and air is removed
through a hole that's left in the bottom of the outer layer.

At this point, the hole through which air was evacuated must be
sealed before the cup is removed from the vacuum chamber. Lead solder
provides a reliable and cost-effective answer. During the assembly of
the inner and outer layers, a small lead pellet is placed above the
air-escape hole. After the air is pulled out of the cup, the vacuum
chamber is heated just enough to melt the lead, causing it to flow
into the air escape hole and seal it. When the vacuum chamber is
opened, a vacuum remains between the cup's walls.

In our CT scans, we can clearly see the inner and outer stainless
steel flask layers, as well as the solder point. We also see a metal
disk attached to a welded tab, which may be a component used to
position the solder and hold it in place before it's melted. Dense
materials or those made of elements with higher atomic numbers
attenuate (absorb or scatter) X-rays more. Lead is very dense and
tends to block X-rays, which is why it's used to protect people from
X-ray radiation. In Voyager, we've applied a color map to the
reconstruction that corresponds to the range of material attenuation
coefficients. Lead, the most attenuating, appears here as a solid
red. The scan shows that the lead solder is completely shielded by a
stainless steel cover just below it.

[65f2907b0d]

Stanley issued a statement saying, "Once sealed, this area is covered
with a durable stainless steel layer, making it inaccessible to
consumers. Rest assured that no lead is present on the surface of any
Stanley product that comes into contact with the consumer nor the
contents of the product. In the rare occurrence the base cap of a
product comes off due to ordinary use and exposes this seal, it is
eligible for our Lifetime Warranty." 

Leaded solder, despite its known health risks, remains widely used in
various industries, including electronics, due to its superior
workability and lower melting point compared to unleaded
alternatives. The Stanley revelation has sparked a debate on the
difficult trade-offs manufacturers face between continuing with a
well-established but potentially harmful material or investing in the
development of safer--albeit more expensive and technically
challenging--alternatives.

In response to the controversy, other reusable water bottle companies
have been highlighting their lead-free manufacturing processes.
Brands like Owala, Hydro Flask, and Klean Kanteen have successfully
eliminated lead from their products, opting for alternative materials
such as noncrystalline silica beads or proprietary sealants. These
companies demonstrate that while the transition to lead-free
manufacturing is complex and costly, it is feasible and aligns with
growing consumer demand for environmentally friendly and safe
products.

[65f3415d6e]

As consumers become more discerning about the products they buy, the
pressure on companies to not compromise on safety or sustainability
will only increase. Perhaps just as important as continued innovation
is educating consumers on the relative risks associated with
materials and manufacturing processes. Proactively demystifying the
product's lifecycle and design choices could mean the difference
between soaring success and a viral backlash.

 
 
 
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