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1              The first comprised gold-plated stainless 316L beads coated with a self-assembled monola
2 ately 4% of lung cancer cases, to which both stainless and mild steel welding contributed equally.
3 imaging has been widely tested as a tool for stainless digital histology of biomedical specimens, inc
4 nce to chemical corrosion, 2707 hyper duplex stainless steel (2707 HDSS) has been used in the marine
5                                              Stainless steel (SS) can be an attractive material to cr
6 ployed a BiOx-TiO2 semiconductor anode and a stainless steel (SS) cathode in the presence of sodium c
7                                              Stainless steel (SS) particles were demonstrated as a no
8 sized, which strongly adsorbs to Ti and 316L stainless steel (SS) substrates, providing an anchor for
9                       Mechanical abrasion of stainless steel (SS) surfaces is demonstrated as an effe
10                                In this work, stainless steel (SS) was used as a substrate to fabricat
11 rcuits, the use of iron or etched and sanded stainless steel (ss) wire, instead of platinum wire, sup
12          This work demonstrated that 317L-Cu stainless steel (SS), created by adding copper through a
13 g accompanied by precipitation in austenitic stainless steel (SS).
14 periments at the interface between CuAl5 and stainless steel 304 alloys.
15 c CuAl5 and (Mg0.75Fe0.25)2SiO4 olivine in a stainless steel 304 chamber, intended to replicate a nat
16 lloys were stacked together and shocked in a stainless steel 304 recovery chamber.
17             Earlier we reported a nanoporous stainless steel acupuncture needle with enhanced therape
18             A flange converter produced from stainless steel and a hub lock produced from plastic or
19 lite MFI membranes are synthesized on porous stainless steel and alpha-alumina supports using a seede
20 c, iron(II), and iodide are measured by bare stainless steel and by stainless steel modified by eithe
21               In nonirradiated metals (e.g., stainless steel and copper), it was found that significa
22 ular injury created by slotted-tube geometry stainless steel and nitinol coronary stents in a rabbit
23 promising alternative to traditional medical stainless steel and polymer for the clinical application
24 rating the advantages of traditional medical stainless steel and polymer.
25 explain the entrainment phenomenon for 316 L stainless steel and Ti-6Al-4V powder layers.
26 ed from two operationally relevant surfaces: stainless steel and vinyl tile.
27 ire), and final alignment (0.019 x 0.025-in. stainless steel arch wire).
28 hesis of bare gold nanoparticles mediated by stainless steel as reducing agent was monitored via infr
29 th stearate indicator, Ag-AgCl reference and stainless steel auxiliary microelectrodes.
30         The interface is based on a rotating stainless steel ball that transports samples from atmosp
31                  For field-scale composting, stainless steel beads coated with PrP(263K) were exposed
32 omium sirolimus-eluting Orsiro stent and the stainless steel biolimus-eluting Nobori stent in an all-
33 exible, hard-piped equipment including large stainless steel bioreactors and tanks to hold product in
34  a device consisting of two rapidly spinning stainless steel blades that were pneumatically driven th
35                                   The normal stainless steel bore-through union serving as the upstre
36  Here we show that martensitic structures in stainless steel can be removed by appropriate electroche
37 e samples were collected in electro-polished stainless steel canisters from two aircraft while flying
38 ampling techniques within this area, namely, stainless steel canisters, cryotrapping, and solid adsor
39 continuous atmospheric inlet consisting of a stainless steel capillary and DC ion optics was designed
40 he column was an uncoated fused-silica-lined stainless steel capillary column.
41 sting of a 10 cm x 127 microm inner diameter stainless steel capillary tube which was used to introdu
42  doped TiO2 (BiOx/TiO2) anode coupled with a stainless steel cathode at applied anodic potentials (Ea
43  using mixed-metal oxide anodes coupled with stainless steel cathodes.
44 ctive bismuth-doped TiO2 functionalities and stainless steel cathodes.
45       The adsorption isotherm of DEHP on the stainless steel chamber surfaces was explicitly measured
46 ics and adsorption isotherm of phthalates on stainless steel chamber surfaces were determined experim
47 5, (Mg0.75Fe(2+) 0.25)2SiO4 olivine, and the stainless steel chamber walls, the recovered specimen co
48 m reduction of Fe(2+) in olivine or from the stainless steel chamber.
49 ring (VF) was measured in specially designed stainless steel chambers.
50 floorings was measured in specially designed stainless steel chambers.
51 s evolved was actively transferred through a stainless steel channel to the capture chamber containin
52 porous hydrophobic material is packed into a stainless steel chromatographic column, and water is flu
53 ns in shear stress were created by placing a stainless steel clip over a 12-mm region of the rat abdo
54 mostly employing detachable or nondetachable stainless steel coils.
55 by inserting a fused silica capillary into a stainless steel column enclosed in a glass tube.
56 n gas flowing between the glass tube and the stainless steel column.
57 he well-known 'season cracking' of brass and stainless steel components in nuclear power generating s
58 d due to the low thermal conductivity of the stainless steel components.
59                    It consists of a four-way stainless steel cross, plus the following components con
60 ique (HT; no caries removal, sealing in with stainless steel crowns), and nonrestorative caries treat
61 ely 3-log(10) inoculum of M. tuberculosis on stainless steel discs and a 6-log(10) inoculum of Geobac
62  as a function of grain orientations, in 316 stainless steel during high-cycle fatigue.
63 nts were made utilizing a specially designed stainless steel electrochemical cell that easily maintai
64                                Moreover, the stainless steel electrode was modified simultaneously by
65                                              Stainless steel electrodes are found to corrode when cyc
66                                              Stainless steel electrodes were fabricated by 3D printin
67  the nucleus accumbens shell through bipolar stainless steel electrodes.
68  onto the increasingly popular pipe material stainless steel EN1.4307.
69     The on-line EC cell configuration with a stainless steel ES needle as the working electrode produ
70 oated silica particles were immobilized onto stainless steel fibers and subsequently used for headspa
71  was 5 times better than that obtained using stainless steel for a 85mer.
72 ofabrication techniques to create very small stainless steel fountain pens that were installed in pla
73 entane are filtered under pressure through a stainless steel funnel attached to an EPR tube fitted wi
74 lar response in porcine coronary arteries to stainless steel gold-coated NIR stents (7-cell, Medinol,
75 curred with only the Vena-Tech (VT) and 12-F stainless steel Greenfield (12SSG) filters and the 1.5-J
76 e (n=6, 1 failure), Simon-Nitinol (n=1), 12F Stainless Steel Greenfield (n=4), and Titanium Greenfiel
77 ctive heating of a sealed glass vessel via a stainless steel heating jacket and implements both onlin
78 4V, poly(L-lactide-co-D,L,-lactide), and 303 stainless steel implants with surface characteristics co
79 nd Cr3+) released from acid corrosion of the stainless steel inlet frit greatly accelerate the hydrol
80                    We show that removing the stainless steel inlet frit, or use of a titanium frit, g
81 tudy, Tenax beads (TA) encapsulated within a stainless steel insert were used as an adsorption sink t
82                   Joining titanium alloy and stainless steel is becoming an urgent need since their o
83                              When austenitic stainless steel is heavily plastically deformed by grind
84  of peptides desalted and washed on uncoated stainless steel MALDI plates were consistently inferior
85 roteolytic fragments, while analysis using a stainless steel MALDI sample probe gives only 11 detecta
86 wn through a volume of sensitized austenitic stainless steel mapped with DCT and observed in situ by
87 n aliquot from this mixture was spotted on a stainless steel mass spectrometry grid and analyzed usin
88 eveloped using exclusively glass, Teflon and stainless steel materials.
89                                          The stainless steel mesh anode with graphite coating was use
90 ion media and it was noticed that WO3 coated stainless steel mesh showed high separation efficiency (
91 acile spray coating of nanostructured WO3 on stainless steel meshes and compared its performance in o
92      We prepared polydimethylsiloxane-coated stainless steel meshes for extraction and preconcentrati
93 r, onto glass, Tegaderm, Listerine tabs, and stainless steel microneedles.
94  are measured by bare stainless steel and by stainless steel modified by either Pt or Au NPs.
95 taxel-coated ACHIEVE stent compared with the stainless steel Multi-Link (ML) PENTA stent.
96                                            A stainless steel needle deposited with saturated alkali c
97 an (TSQ 7000), were modified with a 35-gauge stainless steel needle.
98 -index (GRIN) lenses that were housed in two stainless steel needles, respectively.
99 e observed chamber concentrations in gas and stainless steel phases.
100 achining by passing the laser beam through a stainless steel pinhole.
101                                              Stainless steel pins were placed at the mid-apical and c
102 th scale in the metamaterial fabricated in a stainless steel plate.
103 o those obtained with commercially available stainless steel plates when no organic matrix is used.
104 es (PCP), Teflon-based AnchorChip plates, or stainless steel plates, before analysis by matrix-assist
105 MALDI on PCP, AnchorChip plates, or uncoated stainless steel plates.
106 owth was induced by embolization of a hollow stainless steel plug into the left anterior descending c
107                             An array of five stainless steel pocketed microneedles was shown to posse
108 rface of a microliter droplet deposited on a stainless steel post.
109 ociated prion protein from whole blood using stainless steel powder.
110                                        Here, stainless steel reactors are used to simulate the downho
111               This improved concurrently the stainless steel response (CV and potentiometry) toward t
112 sly, the new instruments were connected to a stainless steel riser tube that was installed in an obse
113 springs that accurately hold 0.5 mm diameter stainless steel rods in the required geometry.
114  an ex-service nuclear steam header Type 316 stainless steel sample is investigated through a multisc
115          Both stages house a Silonite-coated stainless steel sample loop; the second stage loop is fi
116 orption from liquid samples deposited onto a stainless steel sample target biased at a high potential
117 for custom 340-nL, 10-microL, and 110-microL stainless steel sample vials have been investigated usin
118 er at 355 nm was used to ablate a high-alloy stainless steel sample.
119 cribe a novel sampling device which utilizes stainless steel screens coated with a sticky polydimethy
120 of spores) from test surfaces (a bed rail, a stainless steel sheet, or a polypropylene work surface).
121 harvester by depositing P(VDF-TrFE) films on stainless steel springs using EPD process.
122 The Multi-Link stent is a balloon-expandable stainless steel stent with an interconnected ring struct
123                                              Stainless steel stents at 4 days contained more thrombus
124 ery was accomplished with balloon-expandable stainless steel stents coated with a cross-linked biodeg
125 ting blood flow was reduced in arteries with stainless steel stents compared with 4- and 14-day nitin
126                                              Stainless steel stents of 3 different configurations wer
127                                              Stainless steel stents of identical design with (GS) and
128                                              Stainless steel stents were expanded in normal or previo
129                                              Stainless steel stents were implanted for 4 days while n
130                                              Stainless steel stents were implanted in the iliac arter
131                                              Stainless steel stents were less uniformly expanded, had
132                                              Stainless steel stents were more often occluded by throm
133                                 Slotted-tube stainless steel stents were more thrombogenic and create
134 d diffusion is observed with either glass or stainless steel substrate.
135 trifluoroethylene (P(VDF-TrFE)) particles on stainless steel substrates during the electrophoretic de
136 ium oxide coatings using reactive landing on stainless steel support of gas-phase positive ions produ
137 n film of polymer on a tubular, macroporous, stainless steel support.
138 dy the effect of the surface coverage of the stainless steel surface by NPs on the electrochemical re
139 eral weeks for the sorption of DEHP onto the stainless steel surface to reach equilibrium.
140     The strong partitioning of DEHP onto the stainless steel surface was found to follow a simple lin
141 of vinyl flooring and decreasing that of the stainless steel surface within the chamber, the time to
142 g bi-functional surfaces, compared to a bare stainless steel surface.
143 almonella enterica, and Listeria innocua, on stainless steel surfaces and on organic tomatoes, was as
144  the microelectrode was observed on type 304 stainless steel surfaces at active pitting corrosion sit
145 genic strain exhibited prolonged survival on stainless steel surfaces compared with the other E. coli
146 ffective MALDI of peptides and proteins from stainless steel surfaces, obviating the need for laborio
147 r adhesion and binding of S. aureus cells to stainless steel surfaces.
148 a simplified extraction line consisting of a stainless steel syringe needle and a glass cold trap.
149 intervention step carried one bag containing stainless steel tableware as meal boxes and used them fo
150 ater containing salt and organic matter in a stainless steel tank were sampled for size distribution,
151 the influence of new technologies of ageing (stainless steel tanks with wood staves or wood tablets o
152 acity ranged from 28% (raw amphorae) to 43% (stainless steel tanks).
153  approximately 22% in glazed amphorae and in stainless steel tanks.
154  in raw, glazed, and engobe amphorae, and in stainless steel tanks.
155 amphorae, 23% in engobe amphorae, and 59% in stainless steel tanks.
156 in two 1.2-m long x 1.2-m high x 5.4 cm wide stainless steel tanks; each with a high-permeability san
157  including density of organism spotting on a stainless steel target plate and the direct overlay of o
158 A thin film of the matrix was deposited on a stainless steel target using the dried droplet method an
159 s compared with a PU target and a commercial stainless steel target.
160 on with the unmodified PU and the commercial stainless steel targets.
161 blem, here we examine an AISI 304 austenitic stainless steel that has a strain/microstructure-gradien
162                  The interface consists of a stainless steel tube in which the CE capillary is placed
163  of the device described above, in which the stainless steel tube is replaced with Hydroguard fused s
164                The device consists of a long stainless steel tube that is prefilled with calibrated g
165 age d(p) approximately 1.7 microm) and their stainless steel tubes (o.d. 4.53 and 6.35 mm).
166 constructed from an array of seven thin-wall stainless steel tubes soldered into a central hole of a
167 rous hydrophobic membrane tube with terminal stainless steel tubes that function as conductance-sensi
168       The oxygen-free gas was routed through stainless steel tubing directly into the sample compartm
169 itu polymerization in PEEK, fused silica, or stainless steel tubing having an inner diameter of 75 or
170 nvestigated, allowing performance similar to stainless steel tubing in the transport of ions from the
171              Flexible tubing, coupled to the stainless steel tubing, was run through the septum of a
172 emitter systems that utilize the more common stainless steel tubular electrodes.
173  to a ring-down cell fashioned from standard stainless steel vacuum components.
174  hollow nanorods (HR) were directly grown on stainless steel via a sacrificial template accelerated h
175 e ATR unit taking immediate advantage of the stainless steel walls of the ATR cell.
176  Here we show that conventional tungsten and stainless steel wire electrodes can be coated with carbo
177 this method the polymer mat is attached to a stainless steel wire without the need of a binder.
178 e 96-well screen filter plate consists of 96 stainless steel wire-mesh screen tubes connected to the
179 ions in brain homogenates and those bound to stainless steel wires was evaluated by using bioassays i
180 consenting patients, tissue and/or extracted stainless steel wires were collected during the debridem
181 aving for 15 min, human sCJD prions bound to stainless steel wires were eliminated.
182 g platinum, gold-coated stainless steel, and stainless steel wires, were tested.
183 ted effect on prions bound to the surface of stainless steel wires.
184           The modulator tube is silica-lined stainless steel with an internal film of dimethylpolysil
185 nce electrodes (QREs), we propose metal (Pt, stainless steel) coated with partially oxidized polypyrr
186 zation of latent fingerprints on a metallic (stainless steel) surface is described by means of spatia
187 objects formerly covered with plastic, wood, stainless steel, and other materials found in the patien
188 e materials, including platinum, gold-coated stainless steel, and stainless steel wires, were tested.
189 entional sample plates, commonly formed from stainless steel, but provide additional capacity for cap
190 yethylene and polypropylene surfaces than on stainless steel, C8, or C18 surfaces.
191 ere found at the interface between CuAl5 and stainless steel, demonstrating nucleation of quasicrysta
192 te) for disinfection of three surface types (stainless steel, heavy-duty tarp, and nitrile) with and
193                      The balloon-expandable, stainless steel, hourglass-shaped, coronary-sinus reduci
194 hich is one of the most widely used types of stainless steel, we show that a strength gradient substa
195                               Regular use of stainless steel-made meals boxes can mitigate melamine e
196  copper alloy surfaces that did not occur on stainless steel.
197  contributions in joining titanium alloy and stainless steel.
198 ectra than observed in samples desorbed from stainless steel.
199 thylene and polypropylene surfaces than from stainless steel.
200 tion than observed for samples desorbed from stainless steel.
201 hy and chemistry of veiled corrosion pits in stainless steel.
202 eactions), for ozone/D-limonene reactions on stainless steel.
203                Here, in combination with the stainless steel/polyester fiber blended yarn, the polydi
204 ace areas of anodes, dominant performance of stainless-steel based anode materials, and the emerging
205                           In some animals, a stainless-steel cannula was also implanted in the corpus
206                                            A stainless-steel cannula was inserted into the right late
207  4.5 in. long, 0.042 in. inner diameter (ID) stainless-steel capillary, was thus introduced.
208 The stent-grafts were made of self-expanding stainless-steel covered with woven polyester or polytetr
209 gdala and the rat was placed in a box with a stainless-steel grid floor through which a single footsh
210 a which had been cultured mucosal side up on stainless-steel grids.
211                               Coaxial curved stainless-steel guide wires were used to obtain samples
212 ompatible device consisting of a cylindrical stainless-steel mesh.
213 This work describes the use of mass-produced stainless-steel pins as low-cost electrodes to develop s
214 is work describes the use of mass-fabricated stainless-steel pins as new low-cost electrodes for a fl
215 printing tip life over the customary slotted stainless-steel pins.
216                  In this study, fine grained stainless-steel slag (SSS) is valorized to produce compa
217 s martensitic phase can also be generated in stainless-steel surfaces by cathodic charging, as a cons
218 ng of a back-pressure regulator, assembly of stainless-steel syringes, assembly of a continuous flow
219  conditions using metallic silver foil and a stainless-steel vial and ball system.
220 d nitrogen (LN(2)) to top off the dewar of a stainless-steel water trap on a gaseous hydrogen-water p
221          Here we report that austenitic 316L stainless steels additively manufactured via a laser pow
222                                              Stainless steels are used in countless diverse applicati
223 l2O3-forming, high-creep strength austenitic stainless steels has been developed.
224 g process allows the hardness of cold-worked stainless steels to be maintained, while eliminating the
225 teristics of native oxide layers of type 304 stainless steels.
226 phs of different analyte concentrations on a stainless surface have been measured, together with the
227 es) followed by impacting the aerosol onto a stainless surface.

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